srx300 series and srx550 high memory gateway · pdf filemini-pim ... viii...

SRX300 Series and SRX550 High MemoryGateway Interface Modules Reference

Modified: 2017-08-14

Copyright © 2017, Juniper Networks, Inc.

Juniper Networks, Inc.1133 InnovationWaySunnyvale, California 94089USA408-745-2000www.juniper.net

Copyright © 2017 Juniper Networks, Inc. All rights reserved.

Juniper Networks, the Juniper Networks logo, Juniper, and Junos are registered trademarks of Juniper Networks, Inc. and/or its affiliates inthe United States and other countries. All other trademarks may be property of their respective owners.

Juniper Networks assumes no responsibility for any inaccuracies in this document. Juniper Networks reserves the right to change, modify,transfer, or otherwise revise this publication without notice.

SRX300 Series and SRX550 High Memory Gateway Interface Modules ReferenceCopyright © 2017 Juniper Networks, Inc. All rights reserved.

The information in this document is current as of the date on the title page.

YEAR 2000 NOTICE

Juniper Networks hardware and software products are Year 2000 compliant. Junos OS has no known time-related limitations through theyear 2038. However, the NTP application is known to have some difficulty in the year 2036.

ENDUSER LICENSE AGREEMENT

The Juniper Networks product that is the subject of this technical documentation consists of (or is intended for use with) Juniper Networkssoftware. Use of such software is subject to the terms and conditions of the End User License Agreement (“EULA”) posted athttp://www.juniper.net/support/eula/. By downloading, installing or using such software, you agree to the terms and conditions of thatEULA.

Copyright © 2017, Juniper Networks, Inc.ii

http://www.juniper.net/support/eula/

Table of Contents

About the Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii

Documentation and Release Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii

Supported Platforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii

Documentation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii

Documentation Feedback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xv

Requesting Technical Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi

Self-Help Online Tools and Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi

Opening a Case with JTAC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvi

Part 1 Overview

Chapter 1 SRX Series Services Gateway Interface Modules Support . . . . . . . . . . . . . . . 3

SRX300 Series and SRX550 High Memory Services Gateway Interface

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

SRX300 Series and SRX550 High Memory Services Gateway Mini-Physical

Interface Modules Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

SRX300SeriesandSRX550HighMemoryServicesGatewayGigabit-Backplane

Physical Interface Modules Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Interfaces Port Naming Conventions for the SRX300 Series and SRX550 High

Memory Services Gateways . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

SRX300Series andSRX550HighMemory Services Gateway InterfaceModules

and Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

MTU Default and Maximum Values for Physical Interface Modules . . . . . . . . . . . . 8

Power over Ethernet Support on SRX550 High Memory Services Gateway

Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

SRX300 Series and SRX550 High Memory Services Gateway Interfaces Power

and Heat Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

Part 2 Interface Module Descriptions

Chapter 2 1-Port Serial Mini-Physical (SRX-MP-1SERIAL-R) Interface Module . . . . . . 15

1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Overview . . . 15

1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Hardware

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) LEDs . . . . . . 16

Chapter 3 1-Port T1/E1 Mini-Physical (SRX-MP-1T1E1-R) Interface Module . . . . . . . . . 19

1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Overview . . . . . . 19

1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Hardware

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) LEDs . . . . . . . . . . 21

iiiCopyright © 2017, Juniper Networks, Inc.

1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Supported

Loopback Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

1-PortT1/E1Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)Network Interface

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Chapter 4 1-Port VDSL2 Annex A Mini-Physical Interface Module . . . . . . . . . . . . . . . . . 25

1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R)

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25


Hardware Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26


LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27


Supported Profiles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

Chapter 5 8-Port Gigabit Ethernet SFP XPIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

8-Port Gigabit Ethernet SFP XPIM Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

8-Port Gigabit Ethernet SFP XPIM Components . . . . . . . . . . . . . . . . . . . . . . . . . . 30

8-Port Gigabit Ethernet SFP XPIM Hardware Specifications . . . . . . . . . . . . . . . . . 31

8-Port Gigabit Ethernet SFP XPIM LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

8-Port Gigabit Ethernet SFP XPIM Supported Transceivers . . . . . . . . . . . . . . . . . 32

8-Port Gigabit Ethernet SFP XPIM Network Interface Specifications . . . . . . . . . . 34

Chapter 6 16-Port Gigabit Ethernet XPIM (PoE) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

16-Port Gigabit Ethernet XPIM (PoE) Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

16-Port Gigabit Ethernet XPIM (PoE) Components . . . . . . . . . . . . . . . . . . . . . . . . 36

16-Port Gigabit Ethernet XPIM (PoE) Hardware Specifications . . . . . . . . . . . . . . . 37

16-Port Gigabit Ethernet XPIM (PoE) LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

Chapter 7 LTE Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

LTE Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

LTE Mini-Physical Interface Module LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42

LTE Mini-Physical Interface Module Hardware Specifications . . . . . . . . . . . . . . . . 43

Part 3 Cable Specifications and Pinouts

Chapter 8 T1/E1 Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47

RJ-48 Connector to RJ-48 Connector Pinouts for the 1-Port T1/E1 Mini-Physical

Interface Module (SRX-MP-1T1E1-R) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47

RJ-48 Connector to DB-15 Connector Pinouts for the 1-Port T1/E1 Mini-Physical

Interface Module (SRX-MP-1T1E1-R) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48

Chapter 9 VDSL2 Mini-Physical Interface Module Cable Specifications . . . . . . . . . . . . 51

1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-Physical Interface Module

Cable Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51

Chapter 10 Serial Mini-Physical InterfaceModule Cable Specifications . . . . . . . . . . . . . 53

1-Port Serial Mini-Physical Interface Module Interface Cables . . . . . . . . . . . . . . . . 53

EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54

EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56

Copyright © 2017, Juniper Networks, Inc.iv

SRX300 Series and SRX550 High Memory Gateway Interface Modules Reference

RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57

RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58

RS-422/449 (EIA-449) DCE Cable Pinouts for the 1-Port Serial Mini-Physical

Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59

RS-422/449 (EIA-449) DTE Cable Pinouts for the 1-Port Serial Mini-Physical

Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61

V.35 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module . . . . 63

V.35 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module . . . . 64

X.21 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module . . . . 65

X.21 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module . . . . 66

Part 4 Configuration

Chapter 11 Configuring Mini-Physical Interface Modules . . . . . . . . . . . . . . . . . . . . . . . . . . 71

1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Basic

Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71

Using the J-Web Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71

Using the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72

1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Basic

Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73


Using the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74


Basic Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75


Using the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76

LTE Mini-Physical Interface Module Installation and Configuration . . . . . . . . . . . . 77

Installing the LTE Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77

Configuring the LTE Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80

Firmware Upgrade on the LTE Mini-Physical Interface Module . . . . . . . . . . . . . . . 82

Mini-PIM Firmware Upgrade Using the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . 82

Modem Firmware Upgrade Through Over-the-Air (OTA) . . . . . . . . . . . . . . . . 84

Chapter 12 Configuring Gigabit-Backplane Physical InterfaceModules . . . . . . . . . . . . . 87

8-Port Gigabit Ethernet SFP XPIM Basic Configuration . . . . . . . . . . . . . . . . . . . . . 88

16-Port Gigabit Ethernet XPIM Basic Configuration . . . . . . . . . . . . . . . . . . . . . . . . 89

Part 5 Replacing Interface Modules

Chapter 13 Overview of Replacing Interface Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93

Required Tools and Parts for Replacing Interface Modules . . . . . . . . . . . . . . . . . . 93

Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550

High Memory Services Gateway . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94

vCopyright © 2017, Juniper Networks, Inc.

Table of Contents

Chapter 14 Replacing Mini-Physical Interface Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . 95

Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550

High Memory Services Gateways . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95

Removing a Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . 95

Installing a Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . 96

Removing a Blank Mini-Physical Interface Module Faceplate . . . . . . . . . . . . . 97

Installing a Blank Mini-Physical Interface Module Faceplate . . . . . . . . . . . . . 97

Chapter 15 Replacing Gigabit-Backplane Physical Interface Modules . . . . . . . . . . . . . . 99

ReplacingGigabit-Backplane Physical InterfaceModules on the SRX300Series

and SRX550 High Memory Services Gateways . . . . . . . . . . . . . . . . . . . . . . . . 99

Removing a Gigabit-Backplane Physical Interface Module . . . . . . . . . . . . . . 99

Installing a Gigabit-Backplane Physical Interface Module . . . . . . . . . . . . . . 100

Removing a Blank Gigabit-Backplane Physical Interface Module

Faceplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102

Installing a Blank Gigabit-Backplane Physical Interface Module

Faceplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102

Chapter 16 Contacting Customer Support and Returning Components . . . . . . . . . . . . 105

Contacting Customer Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105

Return Procedure for SRX Series Services Gateway Hardware Components . . . 106

Locating the SRX Series Services Gateway Hardware Component Mini-PIM or

GPIM Serial Number Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107

SRX Series Services Gateway Mini-PIM Serial Number Label . . . . . . . . . . . . 107

SRX Series Services Gateway GPIM Serial Number Label . . . . . . . . . . . . . . . 107

Information You Might Need to Supply to JTAC . . . . . . . . . . . . . . . . . . . . . . . . . . . 107

RequiredToolsandParts forPacking theSRXSeriesServicesGatewayHardware

Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108

Packing the SRX Series Services Gateway Hardware Components for

Shipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108

Packing the Hardware Components for Shipment . . . . . . . . . . . . . . . . . . . . 108

Copyright © 2017, Juniper Networks, Inc.vi


List of Figures

Part 1 Overview


Figure 1: SRX550 High Memory Services Gateway Slot Numbers . . . . . . . . . . . . . . 5

Figure 2: Example of a Standard GPIM (Installs in One Standard Slot) . . . . . . . . . 5

Figure 3: Example of a Double-High, Single-Wide XPIM . . . . . . . . . . . . . . . . . . . . . 6



Figure 4: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) Front Panel . . . . . . . . . . . . 15


Figure 5: 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Front

Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19


Figure 6: VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM . . . . . . . . . . . . . . . . . . . 25


Figure 7: 8-Port Gigabit Ethernet SFP XPIM Front Panel . . . . . . . . . . . . . . . . . . . . 29


Figure 8: 16-Port Gigabit Ethernet with PoE XPIM . . . . . . . . . . . . . . . . . . . . . . . . . 36


Figure 9: LTE Mini-PIM Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

Figure 10: LTE Mini-PIM LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42



Figure 11: RJ-11 Cable Pinout for 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R)

Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51

Part 4 Configuration

Chapter 11 Configuring Mini-Physical Interface Modules . . . . . . . . . . . . . . . . . . . . . . . . . . 71

Figure 12: Installing the LTE Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78

Figure 13: Attaching the Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79

Figure 14: Mounting the Antennas on a Rack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79

Figure 15: Mounting the Antennas on aWall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80

viiCopyright © 2017, Juniper Networks, Inc.


Chapter 13 Overview of Replacing Interface Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93

Figure 16: Placing a Component into an Electrostatic Bag . . . . . . . . . . . . . . . . . . . 94

Copyright © 2017, Juniper Networks, Inc.viii


List of Tables

About the Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii

Table 1: Notice Icons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv

Table 2: Text and Syntax Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv

Part 1 Overview


Table 3: SRX300 Series and SRX550 High Memory Services Gateway Mini-PIM

Model Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Table 4: SRX550 High Memory Services Gateway GPIM/XPIMModel

Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Table 5: Interface Port Number Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Table 6: Mini-PIM Types and Hardware Platform Compatibility . . . . . . . . . . . . . . . 8

Table 7: XPIM Types and Hardware Platform Compatibility . . . . . . . . . . . . . . . . . . 8

Table 8: MTU Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Table 9: MTU Values for the SRX300 Series and SRX550 High Memory PIMs . . . . 9

Table 10: MTU Values for VDSL- Mini-PIM AT mode (Encapsulation) . . . . . . . . . . 10

Table 11: PoE Specifications for the SRX550 High Memory Services Gateway . . . . 11

Table 12: PIM Power Consumption Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12



Table 13: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) Physical

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

Table 14: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) LED States . . . . . . . . . . . . 17


Table 15: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Physical Specifications . . . . . 20

Table 16: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) LED States . . . . . . . . . . . . . . . 21

Table 17: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Network Interface

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22


Table 18: 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM Hardware

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

Table 19: 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM LED States . . . . 27

Table20:SupportedProfileson the 1-PortVDSL2AnnexA(SRX-MP-1VDSL2-R)

Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28


Table 21: 8-Port Gigabit Ethernet SFP XPIM Components . . . . . . . . . . . . . . . . . . . 30

ixCopyright © 2017, Juniper Networks, Inc.

Table 22: 8-Port Gigabit Ethernet SFP XPIM Physical Specifications . . . . . . . . . . . 31

Table 23: 8-Port Gigabit Ethernet SFP XPIM LED States . . . . . . . . . . . . . . . . . . . . 32

Table 24: 8-Port Gigabit Ethernet SFP XPIM Supported Modules . . . . . . . . . . . . . 32

Table 25: 8-Port Gigabit Ethernet SFP XPIM Network Interface

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34


Table 26: 16-Port Gigabit Ethernet XPIM Components . . . . . . . . . . . . . . . . . . . . . 36

Table 27: 16-Port Gigabit Ethernet XPIM Hardware Specifications . . . . . . . . . . . . 37

Table 28: 16-Port Gigabit Ethernet XPIM LED States . . . . . . . . . . . . . . . . . . . . . . . 38


Table 29: LTE Mini-PIM Front Panel Components . . . . . . . . . . . . . . . . . . . . . . . . . 40

Table 30: Specifications for the LTE Mini-PIM Antenna . . . . . . . . . . . . . . . . . . . . . 40

Table 31: Antenna Base Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

Table 32: LTE Mini-PIM Models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

Table 33: LTE Mini-PIM LED States . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42

Table 34: LTE Mini-PIM Hardware Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . 43


Chapter 8 T1/E1 Mini-Physical Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47

Table 35: RJ-48 Connector to RJ-48 Connector (Straight) Pinouts . . . . . . . . . . . . 47

Table 36: RJ-48 Connector to RJ-48 Connector (Crossover) Pinouts . . . . . . . . . . 48

Table 37: RJ-48 Connector to DB-15 Connector (Straight) Pinouts . . . . . . . . . . . . 48

Table 38: RJ-48 Connector to DB-15 Connector (Crossover) Pinouts . . . . . . . . . . 49


Table 39: RJ-11 Cable Pinout Details for 1-Port VDSL2 Annex A

(SRX-MP-1VDSL2-R) Mini-PIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52

Chapter 10 Serial Mini-Physical InterfaceModule Cable Specifications . . . . . . . . . . . . . 53

Table 40: Juniper Networks Serial Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53

Table 41: EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . 55

Table 42: EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . 56

Table 43: RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . 58

Table 44: RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . 59

Table 45: RS-422/449 DCE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . 60

Table 46: RS-422/449 DTE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . 61

Table 47: V.35 DCE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . . . . 63

Table 48: V.35 DTE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . . . . 64

Table 49: X.21 DCE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . . . . 65

Table 50: X.21 DTE Cable Pinouts for the 1-Port Serial Mini-PIM . . . . . . . . . . . . . . 66


Chapter 15 Replacing Gigabit-Backplane Physical Interface Modules . . . . . . . . . . . . . . 99

Table 51: LED Indications for Hot-Swappable GPIM Components . . . . . . . . . . . . 99

Table 52: Hot-Swappable Component Descriptions for GPIMs . . . . . . . . . . . . . . 102

Chapter 16 Contacting Customer Support and Returning Components . . . . . . . . . . . . 105

Copyright © 2017, Juniper Networks, Inc.x


Table 53: Return Procedure for SRX Series Services Gateways Component . . . . 106

xiCopyright © 2017, Juniper Networks, Inc.

List of Tables

About the Documentation

• Documentation and Release Notes on page xiii

• Supported Platforms on page xiii

• Documentation Conventions on page xiii

• Documentation Feedback on page xv

• Requesting Technical Support on page xvi

Documentation and Release Notes

To obtain the most current version of all Juniper Networks®technical documentation,

see the product documentation page on the Juniper Networks website at

http://www.juniper.net/techpubs/.

If the information in the latest release notes differs from the information in the

documentation, follow the product Release Notes.

Juniper Networks Books publishes books by Juniper Networks engineers and subject

matter experts. These books go beyond the technical documentation to explore the

nuances of network architecture, deployment, and administration. The current list can

be viewed at http://www.juniper.net/books.

Supported Platforms

For the features described in this document, the following platforms are supported:

• SRX550

• SRX345

• SRX340

• SRX320

Documentation Conventions

Table 1 on page xiv defines notice icons used in this guide.

xiiiCopyright © 2017, Juniper Networks, Inc.

http://www.juniper.net/techpubs/

http://www.juniper.net/books

http://www.juniper.net/techpubs/en_US/release-independent/junos/information-products/pathway-pages/hardware/SRX550/index.html

http://www.juniper.net/techpubs/en_US/release-independent/junos/information-products/pathway-pages/hardware/srx345/index.html



Table 1: Notice Icons

DescriptionMeaningIcon

Indicates important features or instructions.Informational note

Indicates a situation that might result in loss of data or hardware damage.Caution

Alerts you to the risk of personal injury or death.Warning

Alerts you to the risk of personal injury from a laser.Laser warning

Indicates helpful information.Tip

Alerts you to a recommended use or implementation.Best practice

Table 2 on page xiv defines the text and syntax conventions used in this guide.

Table 2: Text and Syntax Conventions

ExamplesDescriptionConvention

To enter configuration mode, type theconfigure command:

user@host> configure

Represents text that you type.Bold text like this

user@host> show chassis alarms

No alarms currently active

Represents output that appears on theterminal screen.

Fixed-width text like this

• A policy term is a named structurethat defines match conditions andactions.

• Junos OS CLI User Guide

• RFC 1997,BGPCommunities Attribute

• Introduces or emphasizes importantnew terms.

• Identifies guide names.

• Identifies RFC and Internet draft titles.

Italic text like this

Configure themachine’s domain name:

[edit]root@# set system domain-namedomain-name

Represents variables (options for whichyou substitute a value) in commands orconfiguration statements.

Italic text like this

Copyright © 2017, Juniper Networks, Inc.xiv


Table 2: Text and Syntax Conventions (continued)

ExamplesDescriptionConvention

• To configure a stub area, include thestub statement at the [edit protocolsospf area area-id] hierarchy level.

• Theconsoleport is labeledCONSOLE.

Represents names of configurationstatements, commands, files, anddirectories; configurationhierarchy levels;or labels on routing platformcomponents.

Text like this

stub <default-metricmetric>;Encloses optional keywords or variables.< > (angle brackets)

broadcast | multicast

(string1 | string2 | string3)

Indicates a choice between themutuallyexclusive keywords or variables on eitherside of the symbol. The set of choices isoften enclosed in parentheses for clarity.

| (pipe symbol)

rsvp { # Required for dynamicMPLS onlyIndicates a comment specified on thesame lineas theconfiguration statementto which it applies.

# (pound sign)

community namemembers [community-ids ]

Encloses a variable for which you cansubstitute one or more values.

[ ] (square brackets)

[edit]routing-options {static {route default {nexthop address;retain;

}}

}

Identifies a level in the configurationhierarchy.

Indention and braces ( { } )

Identifies a leaf statement at aconfiguration hierarchy level.

; (semicolon)

GUI Conventions

• In the Logical Interfaces box, selectAll Interfaces.

• To cancel the configuration, clickCancel.

Representsgraphicaluser interface(GUI)items you click or select.

Bold text like this

In the configuration editor hierarchy,select Protocols>Ospf.

Separates levels in a hierarchy of menuselections.

> (bold right angle bracket)

Documentation Feedback

We encourage you to provide feedback, comments, and suggestions so that we can

improve the documentation. You can provide feedback by using either of the following

methods:

• Online feedback rating system—On any page of the Juniper Networks TechLibrary site

athttp://www.juniper.net/techpubs/index.html, simply click the stars to rate thecontent,

and use the pop-up form to provide us with information about your experience.

Alternately, you can use the online feedback form at

http://www.juniper.net/techpubs/feedback/.

xvCopyright © 2017, Juniper Networks, Inc.


http://www.juniper.net/techpubs/index.html

http://www.juniper.net/techpubs/feedback/

• E-mail—Sendyourcommentsto [email protected]. Includethedocument

or topic name, URL or page number, and software version (if applicable).

Requesting Technical Support

Technical product support is available through the JuniperNetworksTechnicalAssistance

Center (JTAC). If you are a customer with an active J-Care or Partner Support Service

support contract, or are covered under warranty, and need post-sales technical support,

you can access our tools and resources online or open a case with JTAC.

• JTAC policies—For a complete understanding of our JTAC procedures and policies,

review the JTAC User Guide located at

http://www.juniper.net/us/en/local/pdf/resource-guides/7100059-en.pdf.

• Product warranties—For product warranty information, visit

http://www.juniper.net/support/warranty/.

• JTAC hours of operation—The JTAC centers have resources available 24 hours a day,

7 days a week, 365 days a year.

Self-Help Online Tools and Resources

For quick and easy problem resolution, Juniper Networks has designed an online

self-service portal called the Customer Support Center (CSC) that provides youwith the

following features:

• Find CSC offerings: http://www.juniper.net/customers/support/

• Search for known bugs: http://www2.juniper.net/kb/

• Find product documentation: http://www.juniper.net/techpubs/

• Find solutions and answer questions using our Knowledge Base: http://kb.juniper.net/

• Download the latest versions of software and review release notes:

http://www.juniper.net/customers/csc/software/

• Search technical bulletins for relevant hardware and software notifications:

http://kb.juniper.net/InfoCenter/

• Join and participate in the Juniper Networks Community Forum:

http://www.juniper.net/company/communities/

• Open a case online in the CSC Case Management tool: http://www.juniper.net/cm/

Toverify serviceentitlementbyproduct serial number, useourSerialNumberEntitlement

(SNE) Tool: https://tools.juniper.net/SerialNumberEntitlementSearch/

Opening a Casewith JTAC

You can open a case with JTAC on theWeb or by telephone.

• Use the Case Management tool in the CSC at http://www.juniper.net/cm/.

• Call 1-888-314-JTAC (1-888-314-5822 toll-free in the USA, Canada, and Mexico).

Copyright © 2017, Juniper Networks, Inc.xvi


mailto:[email protected]?subject=

http://www.juniper.net/us/en/local/pdf/resource-guides/7100059-en.pdf

http://www.juniper.net/support/warranty/

http://www.juniper.net/customers/support/

http://www2.juniper.net/kb/

http://www.juniper.net/techpubs/

http://kb.juniper.net/

http://www.juniper.net/customers/csc/software/

http://kb.juniper.net/InfoCenter/

http://www.juniper.net/company/communities/

http://www.juniper.net/cm/

https://tools.juniper.net/SerialNumberEntitlementSearch/

http://www.juniper.net/cm/

For international or direct-dial options in countries without toll-free numbers, see

http://www.juniper.net/support/requesting-support.html.

xviiCopyright © 2017, Juniper Networks, Inc.


http://www.juniper.net/support/requesting-support.html

PART 1

Overview

• SRX Series Services Gateway Interface Modules Support on page 3

1Copyright © 2017, Juniper Networks, Inc.

CHAPTER 1

SRX Series Services Gateway InterfaceModules Support

• SRX300 Series and SRX550 High Memory Services Gateway Interface

Overview on page 3

• SRX300 Series and SRX550 High Memory Services Gateway Mini-Physical Interface

Modules Overview on page 4

• SRX300 Series and SRX550 High Memory Services Gateway Gigabit-Backplane

Physical Interface Modules Overview on page 4

• InterfacesPort NamingConventions for theSRX300Series andSRX550HighMemory

Services Gateways on page 6

• SRX300 Series and SRX550 High Memory Services Gateway Interface Modules and

Compatibility on page 7

• MTU Default and Maximum Values for Physical Interface Modules on page 8

• Power over Ethernet Support on SRX550 High Memory Services Gateway

Interfaces on page 10

• SRX300 Series and SRX550 High Memory Services Gateway Interfaces Power and

Heat Requirements on page 12

SRX300 Series and SRX550HighMemory Services Gateway Interface Overview

Mini-Physical Interface Modules (Mini-PIMs) and Gigabit-Backplane Physical Interface

Modules (GPIMs) are field-replaceable network interface cards (NICs), which provide

physical connections to a LAN or aWAN. You can easily insert or remove Mini-PIMs and

GPIMs from the front slots of the services gateway chassis. The Mini-PIMs and GPIMs

receive incomingpackets fromthenetworkand transmit outgoingpackets to thenetwork.

During this process, they perform framing and line-speed signaling for themedium type.

TheSRX300SeriesServicesGatewayssupportonlyMini-PIMs.TheSRX550HighMemory

Services Gateway supports both Mini-PIMs and GPIMs.

RelatedDocumentation

SRX300 Series and SRX550 High Memory Services Gateway Mini-Physical Interface


•




SRX300 Series and SRX550HighMemory Services GatewayMini-Physical InterfaceModules Overview

Table 3 on page 4 lists the supported Mini-PIMs and their model numbers.

Table 3: SRX300 Series and SRX550HighMemory Services GatewayMini-PIMModel Numbers

Model NumbersMini-PIMs

SRX-MP-1Serial-RSerial Mini-PIM

SRX-MP-1T1E1-RT1/E1 Mini-PIM

SRX-MP-1VDSL2-RVDSL2 Mini-PIM

SRX-MP-LTE-AE (for North America and the EuropeanUnion)

SRX-MP-LTE-AA (for Asia and Australia)

LTE Mini-PIM

The Mini-PIMs are field-replaceable. You can install a Mini-PIM in the Mini-PIM slot on

the front panel of the services gateway chassis.

CAUTION: TheMini-PIMs are not hot-swappable. Youmust power off theservices gateway before removing or installing Mini-PIMs.


MTU Default and Maximum Values for Physical Interface Modules on page 8•



SRX300 Series and SRX550HighMemory Services Gateway Gigabit-BackplanePhysical InterfaceModules Overview

AGigabit-Backplane Physical InterfaceModule (GPIM) is a network interface card (NIC)

that installs in the front slots of the SRX550 High Memory Services Gateway to provide

physical connections to a LAN or aWAN. The GPIM receives incoming packets from a

network and transmits outgoing packets to a network. These modules complement the

onboard Ethernet interfaces to extend the types andport counts of network connections

for the LAN orWAN.

Interface module terminology:

• GPIM—Can be installed in one of the single-high, single-wide GPIM front slots of the

SRX550 High Memory Services Gateway that have Gigabit connectivity to the system

backplane.



• XPIM—Can be installed only in the 10-Gigabit GPIM slot 3 or in the 20-Gigabit GPIM

slot 6 on the front panel of the SRX550 High Memory Services Gateway.

The GPIMs can have one of the following configurations:

• Single-high, single-wide LAN switch GPIM that uses one slot

• Double-high, single-wide LAN switch GPIM that uses two standard slots vertically

NOTE: GPIMs are not supported on the SRX300 Series devices.

Table 4 on page 5 lists the GPIMs and XPIMs and their respective model numbers.

Table 4: SRX550HighMemory Services Gateway GPIM/XPIMModelNumbers

Model NumberGPIM or XPIM

SRX-GP-8SFP8-Port Gigabit Ethernet SFP XPIM

SRX-GP-16GE-POE16-Port Gigabit Ethernet XPIM (with PoE)

Figure 1 on page 5 shows how the slots on the front panel of the SRX550 High Memory

Services Gateway are numbered. Slots 1 and 2 are for Mini-PIMs, and slots 3 through 8

are for GPIMs.

Figure 1: SRX550HighMemory Services Gateway Slot Numbers

g009

060

1 5 7 2 8 46 3

Figure 2 on page 5 and Figure 3 on page 6 show the form factors for the services gateway

GPIMs.

Figure 2: Example of a Standard GPIM (Installs in One Standard Slot)

g021

287


Chapter 1: SRX Series Services Gateway Interface Modules Support

Figure 3: Example of a Double-High, Single-Wide XPIM

g032

726


MTU Default and Maximum Values for Physical Interface Modules on page 8•

• Power over Ethernet Support on SRX550 High Memory Services Gateway Interfaces

on page 10





InterfacesPortNamingConventions for theSRX300SeriesandSRX550HighMemoryServices Gateways

When configuring a port on a Mini-Physical Interface Module (Mini-PIM) or

Gigabit-Backplane Physical Interface Module (GPIM), youmust know the slot and port

number assigned to the Mini-PIM or GPIM. The slot number identifies the slot on the

services gateway in which you insert the Mini-PIM or GPIM, and is typically named 1, 2, 3,

and so on. The port number is the port on the Mini-PIM or GPIM that is being configured.

The name of each network interface has the following format to identify the physical

device that corresponds to a single physical network connector:

type-slot/pim/port

NOTE: For SRX Series Services Gateways, pim equals 0 for the port-namingconvention.

For the LTEMini-PIM, port equals 0.

Table 5 on page 6 lists the typical interface types and interface numbers.

Table 5: Interface Port Number Examples

Interface Number ExampleInterface Type

t1–1/0/0T1

e1–1/0/0E1

se–1/0/0Serial



Table 5: Interface Port Number Examples (continued)

Interface Number ExampleInterface Type

pt–1/0/0VDSL2

cl–1/0/0

NOTE: The LTE Mini-PIM can be installed inany of the Mini-PIM slots on the SRX320,SRX340, SRX345, and SRX550 HM ServicesGateways.

LTE

ge–3/0/0 through ge–3/0/7

NOTE: The SRX550 High Memory ServicesGateway has high gigabit and non-high gigabitslots.

• In the high gigabit slot, you can achieve amaximum bandwidth of 8 gigabits.

• In the non-high gigabit slot, you can achieveamaximum bandwidth of 1 gigabit.

8-Port Gigabit Ethernet small form-factorpluggable (SFP) XPIM

• SRX550 High Memory ServicesGateway—ge–3/0/0

NOTE: When installing the 16–Port GigabitEthernet XPIM, which uses 2 slots, youmustinstall it in the 10–Gigabit or 20–Gigabit GPIMslots:

• SRX550 High Memory ServicesGateway—Slots 3 and 6, which refer to theright side bottom two standard slots (slots3 and 4) ) and the right side top twostandard slots (6 and 8).

16-Port Gigabit Ethernet XPIM




•



SRX300 Series and SRX550HighMemory Services Gateway InterfaceModules andCompatibility

Table 6 on page 8 shows the types of Mini-Physical Interface Modules (Mini-PIMs) with

the SRX Series devices and the Junos OS releases that support them.



Table 6: Mini-PIM Types and Hardware Platform Compatibility

Supported Platforms and the First Junos OS Release Supported

Name

SRX550HighMemorySRX345SRX340SRX320SRX300

Junos OSRelease15.1X49–D30




NotsupportedSerial





NotsupportedT1/E1





NotsupportedVDSL2





NotsupportedLTE

Table 7 on page 8 shows the type of Gigabit-Backplane Physical Interface Modules

(XPIMs), alongwith theSRXSeriesdevicesand the JunosOS releases that support them.

Table 7: XPIM Types and Hardware Platform Compatibility

First Junos OS ReleaseNameType

SRX550 High MemorySRX300 SeriesServicesGateways

Junos OS Release15.1X49–D30

Not supported8-Port Gigabit EthernetSFP

XPIMs (10Gigabit EthernetGPIM)

Junos OS Release15.1X49–D30

Not supported16-PortGigabitEthernet




•



MTUDefault andMaximumValues for Physical InterfaceModules

Table 8 on page 9 defines the terms that are used in the context of maximum

transmission unit (MTU).



Table 8: MTU Terms

DefinitionTerm

Default value of the MTU at the physical interface. Themaximum value of the MTUat thephysical interface includes theprotocol overhead.Youcanconfigure thedefaultMTU value at the physical interface by using the following command:set interface interface-namemtumtu-value

Physical Interface MTU–Default

Default value of the MTU at the logical interface. The default value is configured atthe family level and does not include the protocol overhead. You can configure thedefault MTU value for each logical unit at the logical interface by using the followingcommand:set interface interface-name unit interface-unit-number family family-namemtumtu-value

Logical Interface MTU–Default

MaximumMTU is the size, measured in bytes, of the largest physical packet that anetwork can transmit. Any message larger than the MTU is divided into smallerpackets before it is sent to its final destination.

MaximumMTU

Table 9 on page9 lists theMTUvalues for the SRX300Series andSRX550HighMemory

Services Gateway Physical Interface Modules (PIMs).

Table 9: MTUValues for the SRX300 Series and SRX550HighMemoryPIMs

MaximumMTU(Bytes)

Logical InterfaceMTU(Bytes)–Default

Physical InterfaceMTU(Bytes)–DefaultPIM

200015001504Serial Mini-PIM

200015001504T1/E1 Mini-PIM

9192150015148–Port GigabitEthernet smallform–factorpluggable(SFP)XPIM

91921500151416–Port GigabitEthernet XPIM

NOTE: The LTEMini-PIM uses the MTU value reported by themodem.

Table 10 on page 10 lists maximum transmission unit (MTU) values for VDSL- Mini-PIM

ATmode (Encapsulation).



Table 10: MTU Values for VDSL- Mini-PIM ATmode (Encapsulation)

MaximumMTU (Bytes)Logical Interface MTU(Bytes)–Default

Physical Interface MTU(Bytes)–DefaultMini-PIM

VDSL- Mini-PIM ATmode (Encapsulation)

151415061514atm-snap

151415141514atm-vcmux

151415101514atm-nlpid

151415121514atm-cisco-nlpid

152414901514ether-over-atm-llc

151415081514atm-ppp-llc

151415121514atm-ppp-vcmux

151415001514atm-mlppp-llc

151414821514ppp-over-ether-over-atm-llc

151415001514VDSL- Mini-PIM PTmode




•







Power over Ethernet Support on SRX550HighMemory Services Gateway Interfaces

Power over Ethernet (PoE) supports the implementation of the IEEE 802.3 af and IEEE

802.3 at standards, which allow both data and electric power to pass over a copper

Ethernet LAN cable.

TheSRX550HighMemoryServicesGatewayandSRX320ServicesGateway(PoEmodel)

provide PoE ports, which supply electric power over the same ports that are used for

connecting network devices. PoE ports allow you to plug in devices that require both



network connectivity and electric power, such as voice over IP (VoIP), IP phones, and

wireless access points.

The PoE ports for the SRX550 High Memory Services Gateway reside on the individual

XPIMs.TheSRX550HighMemoryServicesGatewaysupports the 16-PortGigabitEthernet

XPIM with PoE.

The active Services and Routing Enginemanages the overall systemPoE power. You can

configure the services gateway to act as power sourcing equipment to supply the power

to the GPIMs connected on the designated PoE ports.

Table 11 on page 11 lists the PoE specifications for the SRX550 High Memory Services

Gateway.

Table 11: PoE Specifications for the SRX550HighMemory ServicesGateway

SRX550 High Memory Services GatewayPower Management Schemes

• IEEE 802.3 af

• IEEE 802.3 at

• Legacy

Supported standards

PoE is supported on the front panel slots 3,4,6, and8.

Supported slots/ports

The 645WAC and 645WDC power suppliessupport the following capacities:

• 255W—PoE on a single power supply, or withredundancy using the two-power-supply option

• 510W—PoE using the two-power-supply optionoperating as nonredundant

Total PoE power sourcing capacity

31.2 WPer-port power limit

• Static: Power allocation for each interface can beconfigured.

• Class: Power for interfaces is allocated based onthe class of powered device connected.

Power management modes


SRX300 Series and SRX550 High Memory Services Gateway Gigabit-Backplane


•



• SRX300 Series and SRX550 High Memory Services Gateway Interface Modules and

Compatibility on page 7



SRX300 Series and SRX550HighMemory Services Gateway Interfaces Power andHeat Requirements

Table 12 on page 12 shows the power consumption values of each Physical Interface

Module (PIM).

Table 12: PIM Power Consumption Values

Power Consumption (Watts)PIMModel

4.29Serial Mini-PIM

1.92T1/E1 Mini-PIM

9.80VDSL2 Mini-PIM

228-Port Gigabit Ethernet SFP XPIM

40 (without PoE)16-Port Gigabit Ethernet XPIM

4.8LTE Mini-PIM


• MTU Default and Maximum Values for Physical Interface Modules on page 8

• Power over Ethernet Support on SRX550 High Memory Services Gateway Interfaces

on page 10



PART 2

Interface Module Descriptions

• 1-Port Serial Mini-Physical (SRX-MP-1SERIAL-R) Interface Module on page 15

• 1-Port T1/E1 Mini-Physical (SRX-MP-1T1E1-R) Interface Module on page 19

• 1-Port VDSL2 Annex A Mini-Physical Interface Module on page 25

• 8-Port Gigabit Ethernet SFP XPIM on page 29

• 16-Port Gigabit Ethernet XPIM (PoE) on page 35

• LTE Mini-Physical Interface Module on page 39


CHAPTER 2

1-Port Serial Mini-Physical(SRX-MP-1SERIAL-R) Interface Module

• 1-PortSerialMini-Physical InterfaceModule (SRX-MP-1SERIAL-R)Overviewonpage 15

• 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Hardware

Specifications on page 16

• 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) LEDs on page 16

1-Port Serial Mini-Physical InterfaceModule (SRX-MP-1SERIAL-R) Overview

Serial WAN links are bidirectional links and require very few control signals. In a basic

serial setup, thedata circuit-terminating equipment (DCE) is responsible for establishing,

maintaining, and terminating a connection. A modem is a typical DCE device. A serial

cable connects the DCE to a telephony network where, ultimately, a link is established

with data terminal equipment (DTE). DTE is typically where a link terminates.

Figure 4 on page 15 shows the front panel of the 1-Port Serial Mini-Physical Interface

Module (Mini-PIM).

Figure 4: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) Front Panel

The 1-Port Serial Mini-Physical Interface Module (Mini-PIM) provides the following key

features:

• Autoselection of operational modes based on DTE or DCE cables

• Local and remote loopback diagnostics

• Configurable clock rate for the transmit (TX) clock and receive (RX) clock

• Complete configuration andmanagement by using the CLI and the J-Web interface


The 1-Port Serial Mini-Physical Interface Module (Mini-PIM) supports the following

standards:

• TIA/EIA 530

• V.35

• X.21

• RS-232

• RS-449


1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Hardware


•


1-Port Serial Mini-Physical InterfaceModule (SRX-MP-1SERIAL-R) HardwareSpecifications

Table 13 on page 16 lists the physical specifications of the 1-Port Serial Mini-Physical

Interface Module (Mini-PIM).

Table 13: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) PhysicalSpecifications

ValueDescription

0.8 in. x 3.75 in. x 5.9 in.(2.0 cm x 9.5 cm x 14.5 cm)

Dimensions (H xW x L)

3.04 oz (86 g)Weight

60-pin Synchronous Serial (female)Connector type

Mini-PIMForm factor


1-PortSerialMini-Physical InterfaceModule (SRX-MP-1SERIAL-R)Overviewonpage 15•


1-Port Serial Mini-Physical InterfaceModule (SRX-MP-1SERIAL-R) LEDs

The 1-Port Serial Mini-Physical Interface Module (Mini-PIM) has one LED located to the

right of the serial port. Table 14 on page 17 describes the LED states.



Table 14: 1-Port Serial Mini-PIM (SRX-MP-1SERIAL-R) LED States

DescriptionStateColorName

Online with no alarms or failures.OnGreenSTATUS

Device has detected a failure.Off


• 1-PortSerialMini-Physical InterfaceModule (SRX-MP-1SERIAL-R)Overviewonpage 15




Chapter 2: 1-Port Serial Mini-Physical (SRX-MP-1SERIAL-R) Interface Module

CHAPTER 3

1-Port T1/E1 Mini-Physical(SRX-MP-1T1E1-R) Interface Module

• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Overview on page 19

• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Hardware


• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) LEDs on page 21

• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Supported Loopback

Diagnostics on page 21

• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Network Interface


1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R) Overview

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) provides the physical

connection to T1 or E1 network media types and also performs T1 or E1 framing and

line-speed signaling.

Figure5onpage 19shows the frontpanelof the 1-PortT1/E1Mini-PIM(SRX-MP-1T1E1-R).

Figure 5: 1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)Front Panel

g005

078

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) provides the following key

features:

• Channel service unit/data service unit (CSU/DSU) to eliminate the need for a separate

external device

• 56-Kbps and 64-Kbps operating modes


• Independent internal and external clocking option

• Alarm reporting with a 24-hour history maintained

• Loopback, BERT, FDL (T1 only), and Long Buildout (T1 only) diagnostics

• Multilink Frame Relay and Multilink PPP support

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) supports the following

standards:

• ANSI TI.107, TI.102

• GR 499-core, GR 253-core

• AT&T Pub 54014

• ITU G.751, G.703


1-PortT1/E1Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)HardwareSpecifications

on page 20

•






1-PortT1/E1Mini-Physical InterfaceModule(SRX-MP-1T1E1-R)HardwareSpecifications

Table 15 on page 20 gives the physical specifications of the 1-Port T1/E1 Mini-Physical

Interface Module (Mini-PIM).

Table 15: 1-PortT1/E1Mini-PIM(SRX-MP-1T1E1-R)PhysicalSpecifications

ValueDescription

0.80 in. x 3.75 in. x 5.9 in.(2.0 cm x 9.5 cm x 14.5 cm )



RJ-48Connector type

Mini-PIMForm factor

32°F through 104°F (0°C through 40°C)Environmental operating temperature

–40°F through 158°F (–40°C through 70°C)Storage temperature

5% to 90% noncondensingRelative humidity




1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Overview on page 19•


1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R) LEDs

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) has three LEDs.

Table 16 on page 21 describes the LED states.

Table 16: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) LED States

DescriptionStateColorLED

Indicates that there is a local or remotealarm; device has detected a failure.

OnYellowALARM

Indicates that therearenoalarmsor failures.Off

Indicates that a loopback or line state isdetected.

OnYellowLOOPBACK

Indicates that the loopback is not active.Off

Indicates that the Mini-PIM link is up.OnGreenCD (CarrierDetector)

Indicates that carrier detect is not active.Off



• 1-PortT1/E1Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)HardwareSpecifications

on page 20





1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R) Supported LoopbackDiagnostics

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) has the following loopback

diagnostics:

• Local, remote, payload

• Test patterns (BERT)

• All ones

• All zeros


Chapter 3: 1-Port T1/E1 Mini-Physical (SRX-MP-1T1E1-R) Interface Module

• Alternating ones and zeros (AA/55)

• 1:3 or 1-in-4 pattern

• 1:7 or 1-in-8 pattern

• 3:24 - 3 bits set in every 24 bits

• QRSS20 (Modified PRBS 2^20-1, with 14 zero suppression)

• PRBS 2^7-1 - PRBS 2^9-1 (as specified in ITU-T O.153)

• PRBS 2^11-1 (as specified in ITU-T O.153)/2047 pattern

• PRBS 2^15-1 (as specified in ITU-T O.151/O.153)

• PRBS 2^20-1 (as specified in ITU-T O.153)

• Programmable word or 32-bit programmable pattern

• Network (T1) alarms

• LOS, LOF, AIS, YLW




on page 20


1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R) Network InterfaceSpecifications

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) has the network interface

specifications given in Table 17 on page 22.

Table 17: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Network InterfaceSpecifications

E1 SpecificationsT1 SpecificationSpecification

Network interface specifications

2.048Mbps1.544 MbpsTransmit bit rate

2.048Mbps1.544 MbpsReceive bit rate

HDB3AMI/B8ZSLine encoding

Framed Clear Channel,Unframed Clear Channel

Framed Clear ChannelMode

G704 without CRC4 UnframedSuperframe(D4/SF),ExtendedSuperframe (ESF)

Fractional Framing



Table 17: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Network InterfaceSpecifications (continued)

E1 SpecificationsT1 SpecificationSpecification

HDLC features

(E1:N=1 to 31)(T1:N=1 to 24)N x 64 Kbps or N x 56 Kbps,nonchannelized data rates

16/3216/32CRC

SupportedSupportedShared Flag

SupportedSupportedIdle flag/fill

Runts, Giants, FCS, Error, AbortError, Align Error

Runts, Giants, FCS, Error, AbortError, Align Error

Counters:


• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Overview on page 19


on page 20





Chapter 3: 1-Port T1/E1 Mini-Physical (SRX-MP-1T1E1-R) Interface Module

CHAPTER 4

1-Port VDSL2 Annex A Mini-PhysicalInterface Module

• 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R)

Overview on page 25

• 1-Port VDSL2AnnexAMini-Physical InterfaceModule (SRX-MP-1VDSL2-R)Hardware


• 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R)

LEDs on page 27

• 1-PortVDSL2AnnexAMini-Physical InterfaceModule (SRX-MP-1VDSL2-R)Supported

Profiles on page 27

1-Port VDSL2AnnexAMini-Physical InterfaceModule (SRX-MP-1VDSL2-R)Overview

Very-high-bit-rate digital subscriber line (VDSL) technology is part of the xDSL family of

modem technologies, which provide faster data transmission over a single flat untwisted

or twisted pair of copper wires. The 1-Port VDSL2 Annex AMini-PIM carries the Ethernet

backplane.When theMini-PIM is plugged into the chassis, theMini-PIM connects to one

of the ports of the baseboard switch. The 1-Port VDSL2 Annex A Mini-PIM on the SRX

Series Services Gateway provides ADSL backward compatibility.

The 1-Port VDSL2 Annex A Mini-PIM is compatible with the ITU-T G.993.2 (VDSL2)

standard.

Figure 6 on page 25 shows the 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM.

Figure 6: VDSL2 Annex A (SRX-MP-1VDSL2-R)Mini-PIM


The following featuresare supportedon the 1-PortVDSL2AnnexAMini-Physical Interface

Module (Mini-PIM):

• ADSL/ADSL2/ADSL2+ backward compatibility with Annex-A, Annex-M support

• Packet Mode Transfer (PTM) or Ethernet in the First Mile (EFM) (802.3ah) support

• Operation,Administration, andMaintenance (OAM)support forADSL/ADSL2/ADSL2+

mode

• Asynchronous Transfer Mode (ATM) quality of service (QoS) (supported only when

the VDSL2 Mini-PIM is operating in ADSL2mode)

• Multilink Point-to-Point Protocol (MLPPP) (supported onlywhen the VDSL2Mini-PIM

is operating in ADSL2mode)

• Support for a maximum of 10 permanent virtual connections (PVCs) (only in

ADSL/ADSL2/ADSL2+mode)

• Dying Gasp support (ADSL and VDSL2mode)


1-Port VDSL2AnnexAMini-Physical InterfaceModule (SRX-MP-1VDSL2-R)Hardware


•

• 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) LEDs on

page 27


Profiles on page 27

1-PortVDSL2AnnexAMini-Physical InterfaceModule (SRX-MP-1VDSL2-R)HardwareSpecifications

Table 18 on page 26 gives the hardware specifications of the 1-Port VDSL2 Annex A

Mini-Physical Interface Module (Mini-PIM).

Table 18: 1-PortVDSL2AnnexA(SRX-MP-1VDSL2-R)Mini-PIMHardwareSpecifications

ValueDescription




RJ-11Connector type

Mini-PIMForm factor

32°F through 113°F (0° C through 40° C)Environmental operating temperature

–40°F through 158°F (–40° C through 70° C)Storage temperature



Table 18: 1-PortVDSL2AnnexA(SRX-MP-1VDSL2-R)Mini-PIMHardwareSpecifications (continued)

ValueDescription



1-Port VDSL2 Annex AMini-Physical InterfaceModule (SRX-MP-1VDSL2-R) Overview

on page 25

•


Profiles on page 27

1-Port VDSL2 Annex AMini-Physical InterfaceModule (SRX-MP-1VDSL2-R) LEDs

The 1-Port VDSL2 Annex A Mini-Physical Interface Module (Mini-PIM) has two LEDs.

Table 19 on page 27 describes the LED states.

Table19: 1-PortVDSL2AnnexA(SRX-MP-1VDSL2-R)Mini-PIMLEDStates


Indicates that the VDSL interface is trained.OnGreenSYNC

Indicates training is in progress.Blinking

Indicates that traffic is passing through.BlinkingGreenTX/RX

Indicates that no traffic is passing through.Off



on page 25

•




Profiles on page 27

1-PortVDSL2AnnexAMini-Physical InterfaceModule(SRX-MP-1VDSL2-R)SupportedProfiles

A profile is a table that contains a list of preconfigured VDSL2 settings.

Table 20 on page 28 lists the different profiles supported on the 1-Port VDSL2 Annex A

Mini-PIM, along with their data rates.


Chapter 4: 1-Port VDSL2 Annex A Mini-Physical Interface Module

Table 20: Supported Profiles on the 1-Port VDSL2 Annex A(SRX-MP-1VDSL2-R)Mini-PIM

Data RateProfiles

508a

508b

508c

508d

6812a

6812b

10017a

Automode (default)Auto


• 1-Port VDSL2 Annex AMini-Physical InterfaceModule (SRX-MP-1VDSL2-R) Overview

on page 25




page 27



CHAPTER 5

8-Port Gigabit Ethernet SFP XPIM

• 8-Port Gigabit Ethernet SFP XPIM Overview on page 29

• 8-Port Gigabit Ethernet SFP XPIM Components on page 30

• 8-Port Gigabit Ethernet SFP XPIM Hardware Specifications on page 31

• 8-Port Gigabit Ethernet SFP XPIM LEDs on page 31

• 8-Port Gigabit Ethernet SFP XPIM Supported Transceivers on page 32

• 8-Port Gigabit Ethernet SFP XPIM Network Interface Specifications on page 34

8-Port Gigabit Ethernet SFP XPIMOverview

The ports of the 8-Port Gigabit Ethernet small form-factor pluggable Gigabit-Backplane

Physical Interface Module (SFP XPIM) can be used for connecting to EthernetWAN

service as well as for local server connectivity at Gigabit Ethernet speeds. The XPIM

enables Layer 2 line-rate Gigabit switching and system-processor dependent Layer 3

service with connection of up to eight SFP Gigabit Ethernet ports. The 8-Port Gigabit

Ethernet SFP XPIM complements the on-board 10/100/1000Mbps Ethernet interfaces

with extendedWAN connectivity. It supports a variety of transceivers. This XPIM can be

used in copper and optical environments to providemaximum flexibilitywhen upgrading

from an existing infrastructure to Metro Ethernet.

The 8-Port Gigabit Ethernet XPIM can be installed in any GPIM slot on the SRX550 High

Memory Services Gateways.

Figure 7 on page 29 shows the front panel of the 8-Port Gigabit Ethernet SFP XPIM.

Figure 7: 8-Port Gigabit Ethernet SFP XPIM Front Panel

g021

287

The 8-Port Gigabit Ethernet small form-factor pluggable XPIM (SFP XPIM) has the

following key features:

• 8 triple-speed (10/100/1000Mbps) Ethernet ports, single-high card

• PoE not supported

• PCI-Express interface for control andmanagement


• I2C interface for module monitor and identification

• Maximummodule power of 40Wwithout PoE

• JTAG support for boundary scan test

CAUTION: If you face a problem running a Juniper Networks device that usesa third-partyopticor cable, the JuniperNetworksTechnicalAssistanceCenter(JTAC) can help you diagnose the source of the problem. Your JTAC engineermight recommendthatyoucheckthethird-partyopticorcableandpotentiallyreplace it with an equivalent Juniper Networks optic or cable that is qualifiedfor the device.


8-Port Gigabit Ethernet SFP XPIM Components on page 30•





8-Port Gigabit Ethernet SFP XPIM Components

The 8-Port Gigabit Ethernet small form-factor pluggable Gigabit-Backplane Physical

Interface Module (SFP XPIM) contains the components listed in Table 21 on page 30.

Table 21: 8-Port Gigabit Ethernet SFP XPIM Components

DescriptionLocationComponent

Use the ONLINE/OFFLINE button togracefully shut down the XPIM. Press andhold the button for 4 to 5 seconds, andthen release. The XPIM gracefully shutsdown and turns off the power supply units(PSUs).

To power up the XPIM (if the Services andRouting Engine [SRE] is off), press andhold the ONLINE/OFFLINE button for 4 to5 seconds.

Right side of the XPIMONLINE/OFFLINE button

Use the captive screws to hold the XPIMin place.

One on each side ofthe XPIM

Two captive screws


8-Port Gigabit Ethernet SFP XPIM Overview on page 29•







8-Port Gigabit Ethernet SFP XPIMHardware Specifications

Table 22 on page 31 provides the physical specifications of the 8-Port Gigabit Ethernet

small form-factor pluggable XPIM (SFP XPIM).

Table 22: 8-Port Gigabit Ethernet SFP XPIM Physical Specifications

ValueDescription



17.6 oz (0.499 kg)Weight

SFPConnector type

XPIMForm factor

32° F through 104° F (0° C through 40° C)Environmental operating temperature


Up to 10,000 ft (3000m)Altitude







8-Port Gigabit Ethernet SFP XPIM LEDs

The8-PortGigabit Ethernet small form-factor pluggableXPIM(SFPXPIM)has twoLEDs

for each port — LINK and ACT. Each XPIM has a STATUS LED, which indicates the status

of the XPIM. The LEDs are listed in Table 23 on page 32. See “8-Port Gigabit Ethernet

SFP XPIM Overview” on page 29 for more information.


Chapter 5: 8-Port Gigabit Ethernet SFP XPIM

Table 23: 8-Port Gigabit Ethernet SFP XPIM LED States


Port is online.OnGreenLINK

Port is offline.Off

Port is receiving or sending data.BlinkingGreenACT

Port might be online, but is not receiving orsending data.

Off

The GPIM is functioning normally.OnGreenSTATUS

The GPIM is starting up, running diagnostics,or going offline.

Yellow

The GPIM has failed.Red

The GPIM is not powered on, is offline, or isnot configured.

Off







8-Port Gigabit Ethernet SFP XPIM Supported Transceivers

You can customize the Ethernet interface typeby using different 1-port small form-factor

pluggable (SFP) transceivers. Table 24 on page 32 lists the SFP transceivers and cables

supported on the 8-port Gigabit Ethernet SFPmodules for XPIMs.

Table 24: 8-Port Gigabit Ethernet SFP XPIM SupportedModules

CableConnector Type (SFP Transceiver)Juniper Product Number

LC100BASE-FXSRX-SFP-FE-FXEX-SFP-1FE-FX

LC1000BASE-LHSRX-SFP-1GE-LHEX-SFP-1GE-LH

LC1000BASE-LXSRX-SFP-1GE-LXEX-SFP-1GE-LX



Table 24: 8-Port Gigabit Ethernet SFP XPIM SupportedModules (continued)

CableConnector Type (SFP Transceiver)Juniper Product Number

LC1000BASE-SXSRX-SFP-1GE-SXEX-SFP-1GE-SX

CAT-5e1000BASE-T, Copper TransceiverSRX-SFP-1GE-TEX-SFP-1GE-T

LC1000BASE-BX10, at 10 km (TX 1310 nm / RX1490 nm)

EX-SFP-GE10KT13R14


EX-SFP-GE10KT13R15


EX-SFP-GE10KT14R13


EX-SFP-GE10KT15R13

LC100Base-BX Fast Ethernet Optics, at 20 km(TX 1310 nm / RX 1550 nm)

EX-SFP-FE20KT13R15

LC100Base-BX Fast Ethernet Optics, at 20 km(TX 1550 nm / RX 1310 nm)

EX-SFP-FE20KT15R13

LC1000BASE-BX, at 40 km (TX 1310 nm / 1550nm)

EX-SFP-GE40KT13R15

LC1000BASE-BX,at40km(TX1550nm/RX1310nm)

EX-SFP-GE40KT15R13

CAUTION: If you face a problem running a Juniper Networks device that usesa third-partyopticor cable, the JuniperNetworksTechnicalAssistanceCenter(JTAC) can help you diagnose the source of the problem. Your JTAC engineermight recommendthatyoucheckthethird-partyopticorcableandpotentiallyreplace it with an equivalent Juniper Networks optic or cable that is qualifiedfor the device.








Chapter 5: 8-Port Gigabit Ethernet SFP XPIM

8-Port Gigabit Ethernet SFP XPIMNetwork Interface Specifications

Table 25 on page 34 provides the network interface specifications of the 8-Port Gigabit

Ethernet small form-factor pluggable XPIM (SFP XPIM).

Table 25: 8-Port Gigabit Ethernet SFP XPIMNetwork InterfaceSpecifications

ValueNetwork Interface Specification

Full-duplex and half-duplexOperating modes

10/100/1000MbpsOperating speed

802.1Q virtual LANsVLAN support

SupportedClass-of-service support

DIX, LLC/SNAP, CCC, TCC, and VLAN-CCCEncapsulations

SupportedLoopback diagnostic feature

SupportedAutonegotiation


• 8-Port Gigabit Ethernet SFP XPIM Overview on page 29







CHAPTER 6

16-Port Gigabit Ethernet XPIM (PoE)

• 16-Port Gigabit Ethernet XPIM (PoE) Overview on page 35

• 16-Port Gigabit Ethernet XPIM (PoE) Components on page 36

• 16-Port Gigabit Ethernet XPIM (PoE) Hardware Specifications on page 37

• 16-Port Gigabit Ethernet XPIM (PoE) LEDs on page 37

16-Port Gigabit Ethernet XPIM (PoE) Overview

The 16-Port Gigabit Ethernet XPIM is a double-high, single-wide LAN switch

Gigabit-Backplane Physical Interface Module (GPIM) that uses two standard slots

vertically. It is availablewith or without Power over Ethernet (PoE) support. The SRX550

High Memory Services Gateway supports the PoEmodel. The PoE GPIMs provide ports

that supply electric power over the sameports that are used to connect network devices.

For more information about PoE, see “Power over Ethernet Support on SRX550 High

Memory Services Gateway Interfaces” on page 10.

The 16-Port Gigabit Ethernet XPIMmust be installed in one of the following 20-Gigabit

slots on the SRX550 High Memory Services Gateway:

• Slot 3

• Slot 6

NOTE: The 16-Port Gigabit Ethernet XPIM is supported on both slot 3 andslot 6 of the SRX550 High Memory Services Gateway. However, theperformance (bandwidth) in slot 3 will be limited as it has a 10G back link.

NOTE: The SRX550 High Memory Services Gateway does not supporthot-swappable functionality for GPIMs.


Figure 8: 16-Port Gigabit Ethernet with PoE XPIM

g032

726

The 16-Port Gigabit Ethernet XPIM has the following key features:

• 16 triple-speed (10/100/1000Mbps) Ethernet ports, double-high card

• PoE support for all ports

• PCI-Express interface for control andmanagement

• I2C interface for module monitor and identification

• Maximummodule power of 40Wwithout PoE

• JTAG support for boundary scan test


16-Port Gigabit Ethernet XPIM (PoE) Components on page 36•



16-Port Gigabit Ethernet XPIM (PoE) Components

The 16-PortGigabit EthernetXPIMcontains thecomponents listed inTable26onpage36.

Table 26: 16-Port Gigabit Ethernet XPIM Components


Use the XPIMONLINE/OFFLINE button togracefully shutdowntheXPIM.

Right side of the XPIMXPIMONLINE/OFFLINEbutton

The SRX550 High MemoryServices Gateway does notsupport hot-swappablefunctionality for GPIMs.

Each port on the 16-PortGigabit Ethernet with PoEXPIM supports Power overEthernet (PoE).

Middle of the XPIM16 PoE ports labeled 0 to 15

Use the captive screws toholdthe XPIM in place in theservices gateway.

One on each side of the XPIMCaptive screws



Table 26: 16-Port Gigabit Ethernet XPIM Components (continued)


Use the handles to grasp theXPIM for installation orremoval.

One on each side of the XPIMHandles


16-Port Gigabit Ethernet XPIM (PoE) Overview on page 35•



16-Port Gigabit Ethernet XPIM (PoE) Hardware Specifications

Table 27 on page 37 provides the specifications for the 16-Port Gigabit Ethernet XPIM.

Table 27: 16-Port Gigabit Ethernet XPIMHardware Specifications

ValueDescription



16.5 oz (0.68 kg)Weight

16 RJ-45Connector type

Double-high, single-wide XPIMForm factor


-40° F through 158° F (-40° C through 70° C)Storage temperature



16-Port Gigabit Ethernet XPIM (PoE) Overview on page 35•



16-Port Gigabit Ethernet XPIM (PoE) LEDs

Table 28 on page 38 lists the LEDs on the 16-Port Gigabit Ethernet XPIM.


Chapter 6: 16-Port Gigabit Ethernet XPIM (PoE)

Table 28: 16-Port Gigabit Ethernet XPIM LED States


XPIM is online and functioningnormally.

OnGreenSTATUS

XPIM is starting up, runningdiagnostics, or shutting down.

OnYellow

XPIM has failed.OnRed

Port is online.OnGreenLINK/ACT

Port is offline.Off

Port is receiving or sending data.Blinking

Not used on the non-PoE XPIM.N/AN/AN/A

Port is PoE enabled and online.OnGreenPoE

Port is offline.Off

Port is PoE enabled and receiving orsending data.

Blinking







CHAPTER 7

LTE Mini-Physical Interface Module


• LTE Mini-Physical Interface Module LEDs on page 42

• LTE Mini-Physical Interface Module Hardware Specifications on page 43

LTEMini-Physical InterfaceModule

The LTE Mini-Physical Interface Module (Mini-PIM) provides wirelessWAN support on

theSRX300SeriesandSRX550HighMemoryServicesGateways.TheMini-PIMcontains

an integratedmodemand operates over 3G and 4G networks. TheMini-PIM supports up

to two SIM cards and can be installed in any of the Mini-PIM slots on the services

gateways.

The Mini-PIM supports the following features:

• Automatic switchover between service providers through dual SIMs

• Storage support for multiple service provider and access point name (APN) profiles

• LTE carrier aggregation

• SIM lock and unlock capability

• Always-on, dial-on-demand, and backupmodes

• Over-the-Air upgrade for modem firmware

Figure 9 on page 39 shows the front panel of the LTE Mini-PIM.

Figure 9: LTEMini-PIM Front Panel

Table 29 on page 40 lists the components on the front panel of the Mini-PIM.


Table 29: LTEMini-PIM Front Panel Components

DescriptionComponent

Two SubMiniature version A (SMA) connectors.Antenna connectors

Mini-USB Type-B port for monitoring and troubleshooting.Mini-USB port

Two slots, SIM1 and SIM2, for inserting the SIM cards. The LTE Mini-PIM supports mini, micro,and nano SIMs. Themini-SIM can be inserted directly in the SIM slot. To insert micro and nanoSIMs, use the SIM adapters supplied with the Mini-PIM. The Mini-PIM is shipped with two SIMadapters.

SIM slots

Indicate the status at a glance. For details on the LED indications, see “LTE Mini-PhysicalInterface Module LEDs” on page 42.

LEDs

The LTE Mini-PIM supports twomulti-band swivel-mount dipole antennas, which can

be rotated 360 °. You can rotate the antennas and select the angle at which the signal

strength is high. Table 30 on page 40 lists the specifications for the antenna.

Table 30: Specifications for the LTEMini-PIM Antenna

ValueSpecification

EDA-2010-4G0R2-A2 (Vendor: MAG.LAYERS)Part number

• 704~960MHz

• 1710~2700MHz

Operating frequency range

5 (maximum)Voltage StandingWave Ratio (VSWR)

50 ohmImpedance

OmnidirectionalRadiation

• 2.45 dBi (704~960MHz)

• 4.51 dBi (1710~2700MHz)

Peak gain

1 WInput power

Linear, verticalPolarization

–4° F (–20° C) to 149° F (65° C)Operating temperature

SMAConnector type

203mmLength

The antenna is connected to the services gateway through themagnetic antenna base.

Table 31 on page 41 lists the specifications for the antenna base.



Table 31: Antenna Base Specifications

ValueSpecification

BS-05SF-174-3M-0102 (Vendor: Chang Hong)Part number

3 mCable length

SMAConnector type

29.50mm x 73mm x 73mmDimensions (H xW x L)

Table 32 on page 41 provides a summary of the different models of the Mini-PIM.

Table 32: LTEMini-PIMModels

Frequency BandOperating RegionModeModel

For LTE:

• Bands 1 through 5, 7, 8, 12, 13, 20, 25, 26, 29, 30,and 41

For 3G (HSPA+):

• Bands 1 through 5, and 8

• North America

• European Union

• LTE

• HSPA+

SRX-MP-LTE-AE

For LTE:

• Bands 1,3, 5, 7, 8, 18, 19, 21, 28, 38, 39, 40, and 41

For 3G (HSPA+):

• Bands 1, 5, 6, 8, 9, and 19

• Asia

• Australia

• LTE

• HSPA+

SRX-MP-LTE-AA

The Mini-PIM can be configured in three modes:

• Always-on—TheMini-PIMconnects to the3G/4Gnetworkafterbooting.Theconnection

is always maintained, as long as there are no network or connectivity problems.

• Dial-on-demand—The Mini-PIM initiates a connection when it receives traffic.

• Backup—The Mini-PIM connects to the 3G/4G network when the primary connection

fails.

The LTE Mini-PIM supports the following wireless standards:

• FCC Part 2

• FCC Part 22

• FCC Part 24, Part 27 and Part 90

• RSS 129 and RSS 133, RSS 130, RSS 199, and RSS 139

• RSS 132 and RSS 133

• EN 301 511 GSM


Chapter 7: LTE Mini-Physical Interface Module

• EN 301 908-1

• EN 301 908-2

• The Certification and Engineering Bureau of Industry Canada (IC)

• Radio Equipment (RE) Directive of the European Union

• GCF

• CTIA-PTCRB


LTE Mini-Physical Interface Module LEDs on page 42•


LTEMini-Physical InterfaceModule LEDs

Figure 10 on page 42 shows the LEDs on the LTE Mini-PIM.

Figure 10: LTEMini-PIM LEDs

g009

650

Table 33 on page 42 lists the LEDs on the LTE Mini-PIM and their indications.

Table 33: LTEMini-PIM LED States

DescriptionLED

Solid green (one bar)—Low signal strength (<= –99 dBm).SIG (Received Signal StrengthIndicator)

Solid green (two bars)—Low signal strength(from –98 dBm to –87 dBm).

Solid green (three bars)—Low signal strength(from –86 dBm to –76 dBm).

Solidgreen (fourbars)—Highsignal strength (>=–75dBm).

Unlit—No signal

Solid green—3G connection is established.3G

Blinking green—Connecting to a 3G network.



Table 33: LTEMini-PIM LED States (continued)

DescriptionLED

Solid green—LTE connection is established.LTE

Blinking green—Connecting to an LTE network.

Solid green—SIM1 is active.SIM1

Solid green—SIM2 is active.SIM2

NOTE: If all the LEDs are blinking, it indicates that firmware updates are inprogress.Donotpoweroff theservicesgatewaybefore theupdatescomplete.


LTE Mini-Physical Interface Module Hardware Specifications on page 43•

LTEMini-Physical InterfaceModule Hardware Specifications

Table 34 on page 43 provides the hardware specifications for the LTE Mini-PIM.

Table 34: LTEMini-PIM Hardware Specifications

ValueDescription



0.23 lb (0.106 kg)Weight

SMAConnector type

Mini-PIMForm factor


-40° F through 158° F (-40° C through 70° C)Storage temperature




• LTE Mini-Physical Interface Module LEDs on page 42


Chapter 7: LTE Mini-Physical Interface Module

PART 3

Cable Specifications and Pinouts

• T1/E1 Mini-Physical Interface Module on page 47

• VDSL2 Mini-Physical Interface Module Cable Specifications on page 51

• Serial Mini-Physical Interface Module Cable Specifications on page 53


CHAPTER 8

T1/E1 Mini-Physical Interface Module

• RJ-48Connector toRJ-48ConnectorPinouts for the 1-PortT1/E1Mini-Physical Interface

Module (SRX-MP-1T1E1-R) on page 47

• RJ-48Connector toDB-15ConnectorPinouts for the 1-PortT1/E1Mini-Physical Interface


RJ-48Connector toRJ-48ConnectorPinouts for the1-PortT1/E1Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)

The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) uses an RJ-48 cable, which

is not supplied with the Mini-PIM.

CAUTION: Tomaintain agency approvals, use only a properly constructed,shielded cable.

Table 35 on page 47 lists the RJ-48 connector to RJ-48 connector (straight) pinouts.

Table 35: RJ-48 Connector to RJ-48 Connector (Straight) Pinouts

SignalRJ-48 Pin (DataNumbering Form)

RJ-48 Pin (on 1-PortT1/E1 Mini-PIM)

RX, Ring, –11

RX, Tip, +22

TX, Ring, –44

TX, Tip, +55

Shield/Return/Ground33


No connectNo connect7



Table 36 on page 48 lists the RJ-48 connector to RJ-48 connector (crossover) pinouts

for the 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM).

Table 36: RJ-48 Connector to RJ-48 Connector (Crossover) Pinouts

SignalRJ-48 Pin (DataNumbering Form)

RJ-48 Pin (onT1/E1 Mini-PIM)

RX/Ring/– <––>TX/Ring/–41

RX/Tip/+ <––>TX/Tip/+52

TX/Ring/– <––>RX/Ring/–14

TX/Tip/+ <––>RX/Tip/+25






RJ-48Connector toDB-15ConnectorPinouts for the 1-PortT1/E1Mini-Physical Interface


•

RJ-48Connector toDB-15ConnectorPinouts for the1-PortT1/E1Mini-Physical InterfaceModule (SRX-MP-1T1E1-R)

Table 37 on page 48 lists the RJ-48 connector to DB-15 connector (straight) pinouts.

Table 37: RJ-48 Connector to DB-15 Connector (Straight) Pinouts

SignalDB-15 Pin (Data NumberingForm)

RJ-48 Pin (on T1/E1Mini-PIM)

RX/Ring/– <––>RX/Ring/–111

RX/Tip/+ <––>RX/Tip/+32

TX/Ring/– <––>TX/Ring/–94

TX/Tip/+ <––>TX/Tip/+15






Table 37: RJ-48 Connector to DB-15 Connector (Straight)Pinouts (continued)


RJ-48 Pin (on T1/E1Mini-PIM)









Table 38 on page 49 lists the RJ-48 connector to DB-15 connector (crossover) pinouts.

Table 38: RJ-48 Connector to DB-15 Connector (Crossover) Pinouts



RX/Ring/– <––>TX/Ring/–91

RX/Tip/+ <––>TX/Tip/+12

TX/Ring/– <––>RX/Ring/–114

TX/Tip/+ <––>RX/Tip/+35









Chapter 8: T1/E1 Mini-Physical Interface Module

Table 38: RJ-48 Connector to DB-15 Connector (Crossover)Pinouts (continued)








• RJ-48Connector toRJ-48ConnectorPinouts for the 1-PortT1/E1Mini-Physical Interface




CHAPTER 9

VDSL2 Mini-Physical Interface ModuleCable Specifications

• 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-Physical Interface Module Cable


1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R)Mini-Physical InterfaceModule CableSpecifications

The 1-Port VDSL2 (Annex A) Mini-Physical Interface Module (Mini-PIM) requires a

standard RJ-11 cable.

Figure 11 on page 51 shows the RJ-11 cable design.

Figure 11: RJ-11 Cable Pinout for 1-Port VDSL2 Annex A(SRX-MP-1VDSL2-R)Mini-PIM

Table 39 on page 52 shows the pin assignments of the RJ-11 cable.


Table 39: RJ-11 Cable Pinout Details for 1-Port VDSL2 Annex A(SRX-MP-1VDSL2-R)Mini-PIM

SignalPin

GroundA1

RX (data input)A2

Tx (data output)A3

Vcc (power)A4


• 1-Port VDSL2 Annex AMini-Physical InterfaceModule (SRX-MP-1VDSL2-R) Overview

on page 25




page 27


Profiles on page 27



CHAPTER 10

Serial Mini-Physical Interface ModuleCable Specifications

• 1-Port Serial Mini-Physical Interface Module Interface Cables on page 53

• EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 54

• EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 56

• RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 57

• RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 58

• RS-422/449 (EIA-449) DCECable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 59

• RS-422/449 (EIA-449) DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface

Module on page 61

• V.35DCECablePinouts for the 1-Port SerialMini-Physical InterfaceModule onpage63

• V.35DTECablePinouts for the 1-Port SerialMini-Physical InterfaceModule onpage64

• X.21 DCECable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule on page 65

• X.21 DTECable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule on page 66

1-Port Serial Mini-Physical InterfaceModule Interface Cables

Table 40onpage 53 lists the cables that you can order from Juniper Networks to connect

to a port on the synchronous 1-Port Serial Mini-Physical Interface Module (Mini-PIM).

The device to which you are connecting and the serial interface types determine which

type of cable you need.

Table 40: Juniper Networks Serial Cables

ConnectorTypeLengthInterface TypeProduct Number

Female3.04m (10 ft)EIA530 cable (DCE)JX-CBL-EIA530-DCE


Table 40: Juniper Networks Serial Cables (continued)

ConnectorTypeLengthInterface TypeProduct Number

Male3.04m (10 ft)EIA530 cable (DTE)JX-CBL-EIA530-DTE

Female3.04m (10 ft)RS232 cable (DCE)JX-CBL-RS232-DCE

Male3.04m (10 ft)RS232 cable (DTE)JX-CBL-RS232-DTE

Female3.04m (10 ft)RS449 cable (DCE)JX-CBL-RS449-DCE

Male3.04m (10 ft)RS449 cable (DTE)JX-CBL-RS449-DTE

Female3.04m (10 ft)V.35 cable (DCE)JX-CBL-V35-DCE

Male3.04m (10 ft)V.35 cable (DTE)JX-CBL-V35-DTE

Female3.04m (10 ft)X.21 cable (DCE)JX-CBL-X21-DCE

Male3.04m (10 ft)X.21 cable (DTE)JX-CBL-X21-DTE


EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 54

•

• EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 56

• RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 57

• RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 58


Module on page 59


Module on page 61





EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 41 on page 55 gives the EIA-530A DCE cable pinouts.



Table 41: EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-PIM

DescriptionLFH-60PairingDB-25 PinLFH-60 Pin

Shield Ground-115

Transmit Data (A)221

Receive Data (A)59360

Request to Send (A)38437

Clear to Send (A)47548

Data Set Ready (A)-633

Signal Ground-757

Received Line Signal Detector (A)14813

Receive Clock (B)52951

Received Line Signal Detector (B)131014

Terminal Timing (B)5116

Transmit Clock (B)561255

Clear to Send (B)481347

Transmit Data (B)1142

Transmit Clock (A)551556

Receive Data (B)601659

Receive Clock (A)511752

Local Loopback-1845

Request to Send (B)371938

Data Terminal Ready (A)-209

Signal Ground-234

Terminal Timing (A)6245

---26 to 25


Chapter 10: Serial Mini-Physical Interface Module Cable Specifications

Table 41: EIA-530A DCE Cable Pinouts for the 1-Port SerialMini-PIM (continued)


---30 to 29


RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 57

•


Module on page 59



EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 42 on page 56 gives the EIA-530A DTE cable pinouts.

Table 42: EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-PIM


Shield Ground-115


Receive Data (A)231



Data Set Ready (A)-69

Signal Ground-757

Received Line Signal Detector (A)14813

Receive Clock (B)596

Received Line Signal Detector (B)131014


Transmit Clock (B)561255



Table 42: EIA-530A DTE Cable Pinouts for the 1-Port SerialMini-PIM (continued)




Transmit Clock (A)551556


Receive Clock (A)6175

Local Loopback-1841


Data Terminal Ready (A)-2033

Signal Ground-234


---26 to 25

---30 to 29

---18 to 17


RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 58

•


Module on page 61



RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 43 on page 58 gives the RS-232 DCE cable pinouts.



Table 43: RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-PIM


Frame Ground-115

Transmit Data-21

Receive Data-360

Request to Send-437

Clear to Send-548

Data Set Ready-633

Signal Ground-757

Data Carrier Detect-813

Transmit Clock-1556

Receive Clock-1752

Local Loopback-1845

Data Terminal Ready-209

Terminal Clock-245

---22 to 21



page 54

•


Module on page 59



RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 44 on page 59 gives the RS-232 DTE cable pinouts.



Table 44: RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-PIM


Frame Ground-115

Transmit Data-260

Receive Data-31

Request to Send-448

Clear to Send-537

Data Set Ready-69

Signal Ground-757

Data Carrier Detect-813

Transmit Clock-1556

Receive Clock-175

Local Loopback-1841

Data Terminal Ready-2033

Terminal Clock-2452

---22 to 21

---18 to 17


EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 56

•


Module on page 61



RS-422/449(EIA-449)DCECablePinouts for the 1-PortSerialMini-Physical InterfaceModule

Table 45 on page 60 gives the RS-422/449 DCE cable pinouts.



Table 45: RS-422/449 DCE Cable Pinouts for the 1-Port Serial Mini-PIM

DescriptionLFH-60Pairing

DC-37(DB-37) PinLFH-60 Pin

Shield Ground-115

Send Data (A)241

Send Timing (A)55556

Receive Data (A)59660


Receive Timing (A)51852


Local Loopback-1045

Data Mode (A)341133

Terminal Ready (A)10129

Receive Ready (A)141313


Signal Ground-1936

Receive Common-204

Send Data (B)1222

Send Timing (B)562355



Receive Timing (B)522651


Data Mode (B)332934

Terminal Ready (B)93010

Receiver Ready (B)133114



Table 45: RS-422/449 DCE Cable Pinouts for the 1-Port SerialMini-PIM (continued)




Send Common-3757

---26 to 25



page 54

•


page 57



RS-422/449 (EIA-449)DTECablePinouts for the 1-Port SerialMini-Physical InterfaceModule

Table 46 on page 61 gives the RS-422/449 DTE cable pinouts.

Table 46: RS-422/449 DTE Cable Pinouts for the 1-Port Serial Mini-PIM



Shield Ground-115

Send Data (A)59460

Send Timing (A)55556

Receive Data (A)261


Receive Timing (A)685


Local Loopback-1041

Data Mode (A)10119

Terminal Ready (A)341233



Table 46: RS-422/449 DTE Cable Pinouts for the 1-Port SerialMini-PIM (continued)



Receive Ready (A)141313


Signal Ground-1936

Receive Common-204

Send Data (B)602259

Send Timing (B)562355



Receive Timing (B)5266


Data Mode (B)92910

Terminal Ready (B)333034

Receiver Ready (B)133114


Send Common-3757

--26 to 25

--18 to 17



page 56

•


page 58





V.35 DCE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 47 on page 63 gives the V.35 DCE cable pinouts.

Table 47: V.35 DCE Cable Pinouts for the 1-Port Serial Mini-PIM

DescriptionLFH-60PairingM/34 PinLFH-60 Pin

Frame Ground-A15

Signal Ground-B57

Request to Send-C37

Clear to Send-D48

Data Set Ready-E33

Received Line Signal Detector-F13

Data Terminal Ready-H9

Test Mode-K45

Transmit Data (A)2P1

Receive Data (A)59R60

Transmit Data (B)1S2

Receive Data (B)60T59

Terminal Timing (A)6U5

Receive Timing (A)51V52

Terminal Timing (B)5W6

Receive Timing (B)52X51

Transmit Timing (A)55Y56

Transmit Timing (B)56AA55

---22 to 21

--26 to 25





page 54

•


page 57


Module on page 59


V.35 DTE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 48 on page 64 describes the V.35 DTE cable pinouts.

Table 48: V.35 DTE Cable Pinouts for the 1-Port Serial Mini-PIM


Frame Ground-A15

Signal Ground-B57

Request to Send-C48

Clear to Send-D37

Data Set Ready-E9

Received Line Signal Detector-F13

Data Terminal Ready-H33

Test Mode-K41

Transmit Data (A)59P60

Receive Data (A)2R1

Transmit Data (B)60S59

Receive Data (B)1T2

Terminal Timing (A)51U52

Receive Timing (A)6V5

Terminal Timing (B)52W51



Table 48: V.35 DTE Cable Pinouts for the 1-Port SerialMini-PIM (continued)


Receive Timing (B)5X6

Transmit Timing (A)55Y56

Transmit Timing (B)56AA55

---22 to 21

---26 to 25

---18 to 17



page 56

•


page 58


X.21 DCE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 49 on page 65 gives the X.21 DCE cable pinouts.

Table 49: X.21 DCE Cable Pinouts for the 1-Port Serial Mini-PIM


Shield Ground-115


Control (A)38337

Receive (A)59460

Indicate (A)47548

Signal Element Timing (A)51652

Signal Ground-857




Table49:X.21DCECablePinouts for the 1-PortSerialMini-PIM(continued)


Control (B)371038

Receive (B)601159

Indicate (B)481247

Signal Element Timing (B)521351

---30 to 29



page 56

•


Module on page 61



X.21 DTE Cable Pinouts for the 1-Port Serial Mini-Physical InterfaceModule

Table 50 on page 66 gives the X.21 DTE cable pinouts.

Table 50: X.21 DTE Cable Pinouts for the 1-Port Serial Mini-PIM


Shield Ground-115


Control (A)47348

Receive (A)241

Indicate (A)38537

Signal Element Timing (A)665

Signal Ground-857


Control (B)481047



Table50:X.21DTECablePinouts for the 1-PortSerialMini-PIM(continued)


Receive (B)1112

Indicate (B)371238

Signal Element Timing (B)5136

---30 to 29

---18 to 17


• EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module on

page 56


page 58


Module on page 61




PART 4

Configuration

• Configuring Mini-Physical Interface Modules on page 71

• Configuring Gigabit-Backplane Physical Interface Modules on page 87


CHAPTER 11

Configuring Mini-Physical InterfaceModules

• 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Basic

Configuration on page 71

• 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Basic


• 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Basic


• LTE Mini-Physical Interface Module Installation and Configuration on page 77

• Firmware Upgrade on the LTE Mini-Physical Interface Module on page 82

1-PortSerialMini-Physical InterfaceModule(SRX-MP-1SERIAL-R)BasicConfiguration

To enable the 1-Port Serial Mini-Physical Interface Module (Mini-PIM) installed on the

services gateway, youmust configure the basic settings for the PIM. You can perform

the configuration tasks for this using either the J-Web interface or the CLI.

• Using the J-Web Interface on page 71

• Using the CLI on page 72

Using the J-Web Interface

To perform basic configuration of the 1-Port Serial Mini-PIM and to configure network

interfaces for the services gateway using the J-Web interface:

1. In the J-Web interface, select Configure>Interfaces.

The Interfaces page displays and lists the network interfaces present on the services

gateway, along with configuration information (if configured).

2. Select the interface name (se-1/0/0) and click Add > Logical Interfaces. Enter the

details and clickOK. To use the port on the Mini-PIM, assign an IP address to the port

and assign it to a security zone, other than the Null zone. If there are no security zones

listed, proceed to the next step to add a security zone.


3. Add a security zone to the interface:

a. Select Configure>Security>Zones/Screens.

b. Addor select a security zoneother thanNull; for example,Trust. Assign the interface

to the zone.

c. For Host Inbound Traffic-Zone, set the following:

• System Services=Allow All

• Protocols=Allow All

d. ClickOK to save changes, and select Commit>Commit to apply the configuration

and other pending changes (if any).

4. Touse theport on theMini-PIM, youmustalso set securitypolicies. Select the following

settings:

a. Select Configure>Security>Security Policy.

b. Select Global Options > Policy Options.

c. Set Policy Action: Default Policy Action=Permit-All.



Using the CLI

To perform basic configuration for the 1-Port Serial Mini-PIM and to configure network

interfaces for the services gateway with the CLI:

1. Verify that the serial interface is installed on the device:

show chassis hardware

2. Verify the status of the interface:

show interfaces terse

3. Assign the port an IP address:

set interfaces se-1/0/0 unit 0 family inet address interface address/destination prefix

4. Add or select a security zone; for example, Trust:

set security zones security-zone trust interfaces se-1/0/0.0 host-inbound-traffic

system-services all

5. Add or select security zones for host inbound traffic protocol options:



setsecurityzonessecurity-zonetrust interfacesse-1/0/0.0host-inbound-trafficprotocols

all

6. Set security policies:

set security policies default-policy permit-all


1-PortSerialMini-Physical InterfaceModule (SRX-MP-1SERIAL-R)Overviewonpage 15•




1-Port T1/E1 Mini-Physical InterfaceModule (SRX-MP-1T1E1-R) Basic Configuration

To enable the 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) installed on the

services gateway, youmust configure the basic settings for the PIM. You can perform

the configuration tasks for this using either the J-Web interface or the CLI.




To perform basic configuration for the 1-Port T1/E1 Mini-Physical Interface Module

(SRX-MP-1T1E1-R) and to configure network interfaces for the services gateway using

the J-Web interface:




2. Select the interface name (t1-1/0/0 or e1–1/0/0) and click Add > Logical Interfaces.

Enter the details and clickOK. To use the port on the Mini-PIM, assign an IP address

to the port and assign it to a security zone, other than the Null zone. If there are no

security zones listed, proceed to the next step to add a security zone.




to the zone.




Chapter 11: Configuring Mini-Physical Interface Modules





settings:

a. Select Configure>Security>Security Policy.


c. Set Policy Action: Default Policy Action=Permit-All.



Using the CLI

To perform basic configuration for the 1-Port T1/E1 Mini-PIM (for the T1 interface) and to

configure network interfaces for the services gateway with the CLI:

1. Verify that the T1/E1 interface is installed on the device:





For T1 interfaces:

set interfaces t1-1/0/0 unit 0 family inet address interface address/destination prefix

For E1 interfaces:

set interfaces e1-1/0/0 unit 0 family inet address interface address/destination prefix


For T1 interfaces:

set security zones security-zone trust interfaces t1-1/0/0.0 host-inbound-traffic

system-services all

For E1 interfaces:

set security zones security-zone trust interfaces e1-1/0/0.0 host-inbound-traffic

system-services all


For T1 interfaces:



setsecurityzonessecurity-zonetrust interfacest1-1/0/0.0host-inbound-trafficprotocols

all

For E1 interfaces:

setsecurityzonessecurity-zonetrust interfacese1-1/0/0.0host-inbound-trafficprotocols

all



NOTE: Youcanuse theCLI commands set interfaces t1–1/0/0or set interfaces

e1–1/0/0 to enable the 1-Port T1/E1 Mini-PIM to function as a T1 or an E1

interface.







1-Port VDSL2 Annex AMini-Physical InterfaceModule (SRX-MP-1VDSL2-R) BasicConfiguration

To enable the 1-Port VDSL2Annex AMini-Physical InterfaceModule (Mini-PIM) installed

on the services gateway, youmust configure the basic settings for the PIM. You can

perform the configuration tasks for this using either the J-Web interface or the CLI.




To perform basic configuration for the 1-Port VDSL2 (Annex A) Mini-Physical Interface

Module (Mini-PIM) and to configure network interfaces for the services gateway using

the J-Web interface:




2. Select the interface name (pt-1/0/0) and click Add > Logical Interfaces. Enter the

details and clickOK. To use the port on the Mini-PIM, assign an IP address to the port

and assign it to a security zone, other than the Null zone. If there are no security zones

listed, proceed to the next step to add a security zone.






to the zone.





and other pending changes.


settings:

a. Select Configure>Security>Security Policy


c. Set Policy Action: Default Policy Action=Permit-All



For more information, in the J-Web interface, select Configure>Interfaces and click Help.

Using the CLI

To perform basic configuration of the 1-Port VDSL2 Annex A Mini-PIM and to configure

network interfaces for the services gateway with the CLI:

1. Verify that the 1-Port VDSL2 interface is installed on the device:





set interfaces pt-1/0/0 unit 0 family inet address interface address/destination prefix

4. Add or select a security zone; for example, Zone1:

set security zones security-zone trust interfaces pt-1/0/0.0 host-inbound-traffic

system-services all

5. Add or select security zones for host inbound traffic options protocols:



setsecurityzonessecurity-zonetrust interfacespt-1/0/0.0host-inbound-trafficprotocols

all





on page 25

•




page 27


Profiles on page 27

LTEMini-Physical InterfaceModule Installation and Configuration

• Installing the LTE Mini-PIM on page 77

• Configuring the LTE Mini-PIM on page 80

Installing the LTEMini-PIM

To install the LTE Mini-PIM in a services gateway:

NOTE: You can install only oneMini-PIM in a services gateway. TheMini-PIMcan be installed in any of the Mini-PIM slots on the services gateway.

1. Attachanelectrostaticdischarge (ESD)groundingstrap toyourbarewrist, andconnect

the strap to the grounding point on the back of the services gateway.

2. Poweroff the servicesgatewaybybriefly pressing thePowerbuttonon the frontpanel.

Wait for thePowerLED to turnoff beforeproceeding. Disconnect the services gateway

from the power source.

3. Remove the blank Mini-PIM installed on the services gateway:

a. Loosen the screws on the faceplate of the blank Mini-PIM.

b. Grasp the screws on each side and remove the blank Mini-PIM.

4. Remove the LTE Mini-PIM from the electrostatic bag.

5. Grasp the screws on each side of the Mini-PIM faceplate and align the notches in the

connector at the rear of the Mini-PIM with the notches in the Mini-PIM slot in the

services gateway.



CAUTION: Slide theMini-PIM straight into the slot to avoid damaging thecomponents on the Mini-PIM.

6. Slide the Mini-PIM in until it lodges firmly in the services gateway. See

Figure 12 on page 78.

Figure 12: Installing the LTEMini-PIM

7. Using a 1/8-in. (3-mm) flat-blade (–) screwdriver, tighten the screws on each side of

the Mini-PIM faceplate.

8. Remove the cover from the SIM slot, SIM 1. Insert the SIM card into the SIM slot. You

can use the other slot, SIM 2, for installing a secondary or backup SIM.

9. Replace the cover over the SIM slots.

10. Attach the antennas to the antenna base. Connect the cables from each antenna

base to the SMA connectors on the Mini-PIM. See Figure 13 on page 79.



Figure 13: Attaching the Antennas

g009

653

The antenna base is magnetic and can be attached to the rack directly, if the rack is

metallic. Else, you canmount the antenna base on the rack using the mounting

brackets. See Figure 14 on page 79.

Figure 14: Mounting the Antennas on a Rack



NOTE: For SRX320 Services Gateways, which can bemounted on awall,the antennas can bemounted as shown in Figure 15 on page 80.

Figure 15: Mounting the Antennas on aWall

g009

648

(27 .9 cm)

> 11 in.

11. Power on the services gateway.

Configuring the LTEMini-PIM

NOTE: If a services gatewaywith factory-default settings is poweredonwiththe LTEMini-PIM installed in slot 1, the dialer interface is triggered to dialautomatically. This functionality is applicable only if theMini-PIM is installedin slot 1. If the Mini-PIM is installed in any other slot, then you will need tomanually configure the cl-slot-number/0/0 interface to be associated withthe dialer interface.



To configure the Mini-PIM:

1. Configure the dialer pool:

user@host# set interfaces cl-slot-number/0/0 dialer-options pool number priority

number

2. Configure the profile:

user@host# requestmodemwireless create-profile profile-id profile-id

access-point-name [email protected]

sip-password password

3. Activate the SIM:

user@host# set interfaces cl-slot-number/0/0 act-sim sim-slot-number

4. Select the profile and configure the radio access type for the SIM card:

user@host# set interfaces cl-slot-number/0/0 cellular-options sim sim-slot-number

profile-id profile-id

user@host# set interfaces cl-slot-number/0/0 cellular-options sim sim-slot-number

radio-access automatic

NOTE: If a SIM card is installed in the second slot, then select the profileand configure the radio access type for the secondary SIM card as well.

5. Configure the dialer interface:

• Always-onmode:

user@host# set interfaces dl0 unit 0 family inet negotiate-address

user@host# set interfaces dl0 unit 0 family inet6 negotiate-address

user@host# set interfaces dl0 unit 0 dialer-options pool dialer-pool-number

user@host# set interfaces dl0 unit 0 dialer-options dial-string dial-number

user@host# set interfaces dl0 unit 0 dialer-options always-on

• Dial-on-demandmode:



user@host# set interfaces dl0 unit 0 family inet filter dialer dialer-filter-name



• Backupmode:







user@host# set interfaces interface-name unit 0 backup-options interface dl0.0


LTE Mini-Physical Interface Module LEDs on page 42•


Firmware Upgrade on the LTEMini-Physical InterfaceModule

• Mini-PIM Firmware Upgrade Using the CLI on page 82

• Modem Firmware Upgrade Through Over-the-Air (OTA) on page 84

Mini-PIM Firmware Upgrade Using the CLI

To upgrade the firmware on the Mini-PIM, using the CLI:

NOTE: WhenyouupgradethefirmwareontheMini-PIM, themodemfirmwareis also upgraded.

1. Identify the currently installed firmware version and new firmware version available

for upgrade:

user@host > show system firmware

Part Type Tag Current Available Status version versionFPC 1 PIC 0 MLTE_FW 1 17.2.91 OK Routing Engine 0 RE BIOS 0 3.2 3.2 OK Routing Engine 0 RE BIOS Backup 1 3.2 3.2 OK

a. If the Available Version field in the output does not list any information, it indicates

that the device is not running the latest jfirmware. Proceed to Step 2 to download

and upgrade to the latest jfirmware.

b. If the Available Version field in the output lists the firmware version, proceed to

Step 4.

2. Download the appropriate jfirmware version from

http://www.juniper.net/support/downloads/group/?f=junos:

NOTE: Ensure that the jfirmware version is the same as the version of theJunos OS installed on the device. To know the Junos OS version, issue theshow version command.



http://www.juniper.net/support/downloads/group/?f=junos

user@host > request system software add var/tmp/jfirmware-<version>-signed.tgz

3. Verify the new firmware version available:


The version is displayed under the Available Version field in the output.

4. Upgrade the firmware on the device:

user@host > request system firmware upgrade pic pic-slot <pic-slot-number> fpc-slot

<fpc-slot-number>

5. Verify the successful completion of the firmware upgrade. The status should show

Upgraded Successfully.


6. Take the FPC offline and then bring it online:

a. Take the FPC offline:

user@host > request chassis pic pic-slot <pic-slot-number> fpc-slot

<fpc-slot-number> offline

b. Verify that the FPC is offline:

user@host > show chassis fpc pic-status <fpc-slot-number>

Slot 0 Online FPC PIC 0 Online 6xGE,2xGE SFP Base PICSlot 1 Offline FPC

c. Bring the FPC online:

user@host > request chassis pic pic-slot <pic-slot-number> fpc-slot

<fpc-slot-number> online

d. Verify that the FPC is online:

user@host > show chassis fpc pic-status <fpc-slot-number>

Slot 0 Online FPC PIC 0 Online 6xGE,2xGE SFP Base PICSlot 1 Online FPC PIC 0 Online MLTE AA PIC

7. Verify that the firmware is upgraded to the latest version:




Modem Firmware Upgrade Through Over-the-Air (OTA)

Over-the-Air (OTA) firmware upgrade enables automatic and timely upgrade ofmodem

firmware when new firmware versions are available. The OTA upgrade can be enabled

or disabled on the 4G/LTE Mini-PIM. OTA is disabled by default.

1. Enable OTA upgrade status on the LTE Mini-PIM:

user@host > requestmodemwireless fota enable

2. Initiate the firmware upgrade:

user@host > requestmodemwireless upgrade cl-slot number/0/0

3. Verify the firmware upgrade status:

user@host > showmodemwireless firmware cl-slot number/0/0

root> show modem wireless firmware cl-1/0/0LTE mPIM firmware details Product name: Junos LTE mPIM Serial number: AG50071902 Hardware version: AcceleratedConcepts/sprite Firmware version: 17.2.91 MAC: 00:00:5e:00:53:c5 System uptime: 429 secondsWireless modem firmware detailsModem firmware version:

9999999_9904609_SWI9X30C_02.23.00.00_00_GENERIC_002.018_000 Modem Firmware build date: 22/10/2016 Card type: MC7430 Modem manufacturer: Sierra Wireless, Inc Hardware version: 1.0 Temperature & Power: Normal 3328 mV, Normal 33.00 COTA status State: Disabled New firmware available: NoNumber of SIM: 1Slot of active: 2Status of SIM 1 SIM state: SIM absent Modem PIN security status: Disabled SIM status: SIM Okay SIM user operation needed: No Op Retries remaining: 0

4. Check the LTE Mini-PIM connection status:

user@host > showmodemwireless network cl-slot number/0/0

root> show modem wireless network cl-1/0/0LTE Connection details Connected time: 147 IP: 172.16.52.4 Gateway: 172.16.52.5 DNS: 123.123.123.123 Input bps: 0



Output bps: 0 Bytes Received: 1308 Bytes Transferred: 1164 Packets Received: 10 Packets Transferred: 10Wireless Modem Network Info Current Modem Status: Connected Current Service Status: Normal Current Service Type: PS Current Service Mode: LTE Current Band: B3 Network: UNICOM Mobile Country Code (MCC): 460 Mobile Network Code (MNC): 1 Location Area Code (LAC): 65534 Routing Area Code (RAC): 0 Cell Identification: 4865903 Access Point Name (APN): ctnet Public Land Mobile Network (PLMN): CHN-UNICOM Physical Cell ID (PCI): 333 International Mobile Subscriber Identification (IMSI): ************** International Mobile Equipment Identification (IMEI/MEID): ************* Integrate Circuit Card Identity (ICCID): 89860114721100697502 Reference Signal Receiving Power (RSRP): -97 Reference Signal Receiving Quality (RSRQ): -16 Signal to Interference-plus-Noise Ratio (SiNR): 0 Signal Noise Ratio (SNR): 0 Energy per Chip to Interference (ECIO): 0


• LTE Mini-Physical Interface Module Installation and Configuration on page 77



CHAPTER 12

Configuring Gigabit-Backplane PhysicalInterface Modules

• 8-Port Gigabit Ethernet SFP XPIM Basic Configuration on page 88

• 16-Port Gigabit Ethernet XPIM Basic Configuration on page 89


8-Port Gigabit Ethernet SFP XPIM Basic Configuration

The 8-Port Gigabit Ethernet small form-factor pluggable Gigabit-Backplane Physical

Interface Module (SFP XPIM) provides connectivity to a single Gigabit Ethernet device

or toanetwork.After you install theXPIM in theservicesgateway, youconfigureanetwork

interface on the XPIM.

NOTE: The SRX550 High Memory Services Gateway does not supporthot-swappable functionality for GPIMs.

To configure a network interface on the 8-Port Gigabit Ethernet SFP XPIM :

1. Verify that the 8-Port Gigabit Ethernet SFP XPIM is installed in the services gateway:

user@host >show chassis hardware

Hardware inventory:Item Version Part number Serial number DescriptionChassis DA3515AK0016 SRX550MMidplane REV 03 750-063950 ACMW7426 Routing Engine REV 03 711-062269 ACMT8374 RE-SRX550MFPC 0 FPC PIC 0 6x GE, 4x GE SFP Base PIC Xcvr 6 REV 02 740-011613 PLN4Q4R SFP-SX Xcvr 7 REV 02 740-011613 PLH5R83 SFP-SX Xcvr 8 REV 02 740-011613 PPF68ZA SFP-SX Xcvr 9 REV 02 740-011613 AM1301SZEZL SFP-SXFPC 1 REV 00 750-064611 ACMX2090 FPC PIC 0 1x T1E1 mPIM (RoHS)FPC 2 REV 00 750-064613 ACMW2386 FPC PIC 0 1x Serial mPIM (RoHS)FPC 3 REV 00 750-064614 ACMZ1330 FPC PIC 0 16x GE POE gPIM (RoHS)FPC 6 REV 02 750-064615 ACMS8119 FPC PIC 0 8x SFP gPIM (RoHS) Xcvr 0 REV 01 740-013111 92244027 SFP-T Xcvr 1 REV 02 740-011613 PLH5KLM SFP-SX Xcvr 2 REV 02 740-011613 PPF68YU SFP-SX Xcvr 3 REV 02 740-011613 PN356ST SFP-SX Xcvr 4 REV 02 740-011613 PLN54T1 SFP-SX Xcvr 5 REV 01 740-020465 DDK2008229 SFP-1000BASE-BX10-D Xcvr 6 REV 02 740-011613 PPF68YV SFP-SX Xcvr 7 REV 02 740-011613 PPF68YW SFP-SXPower Supply 0 Rev 04 740-028131 WG02251 PS 645W DCPower Supply 1 Rev 04 740-028131 WH02925 PS 645W DC

2. Verify that the PIC on the XPIM is online:

user@host> show chassis fpc pic-status

3. Verify that the network interface that you want to configure on the XPIM is up:



user@host> show interfaces terse

4. Assign the interface an IP address:

[edit]

user@host# set interfaces interface-name unit 0 family inet address interface

address/destination prefix


[edit]

user@host# set security zones security-zone trust interfaces ge-0/0/x.0

host-inbound-traffic system-services all

where x is less than or equal to 16


[edit]

user@host# set security zones security-zone trust interfaces ge-0/0/x.0

host-inbound-traffic protocols all

where x is less than or equal to 8


[edit]

user@host# set security policies default-policy permit-all








16-Port Gigabit Ethernet XPIM Basic Configuration

To enable the 16-Port Gigabit Ethernet XPIM installed on your services gateway, you

must configure its properties. You can perform the same configuration tasks provided in

“8-Port Gigabit Ethernet SFP XPIM Basic Configuration” on page 88 using the J-Web

interface or the CLI configuration editor. In addition, you can configure a wider variety of

options that are encountered less frequently.





Chapter 12: Configuring Gigabit-Backplane Physical Interface Modules

PART 5

Replacing Interface Modules

• Overview of Replacing Interface Modules on page 93

• Replacing Mini-Physical Interface Modules on page 95

• Replacing Gigabit-Backplane Physical Interface Modules on page 99

• Contacting Customer Support and Returning Components on page 105


CHAPTER 13

Overview of Replacing Interface Modules

• Required Tools and Parts for Replacing Interface Modules on page 93

• Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High

Memory Services Gateway on page 94

Required Tools and Parts for Replacing InterfaceModules

The following tools and parts are required for replacing a Gigabit-Backplane Physical

Interface Module (GPIM) or a Mini-Physical Interface Module on the services gateway:

• Electrostatic bag or antistatic mat, for each component

• Electrostatic discharge (ESD) grounding wrist strap

• Flat-blade (–) screwdriver, approximately 1/8 in. (3 mm)

• Phillips (+) screwdrivers, numbers 1 and 2

• Blank panels (if no component will be installed)


Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High

Memory Services Gateways on page 95

•

• Replacing Gigabit-Backplane Physical Interface Modules on the SRX300 Series and

SRX550 High Memory Services Gateways on page 99


Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550HighMemory Services Gateway

Many services gateway hardware components are sensitive to damage from static

electricity. Some components can be impaired by voltages as low as 30 V. You can easily

generate potentially damaging static voltages whenever you handle plastic or foam

packing material or if youmove components across plastic or carpets. Observe the

following guidelines tominimize the potential for electrostatic discharge (ESD) damage,

which can cause intermittent or complete component failures:

• Always use an ESDwrist strap or ankle strap, and verify that it is in direct contact with

your skin.

CAUTION: For safety, periodically check the resistance value of the ESDstrap. Themeasurementmust be in the range of 1 to 10 Mohms.

• When handling any component that is removed from the chassis, verify that the

equipment end of your ESD strap is attached to one of the ESD points on the chassis.

• Avoid contact between the component and your clothing. ESD voltages emitted from

clothing can damage components.

• When removing or installing a component, always place it component-side up on an

antistatic surface, in an antistatic card rack, or in an electrostatic bag. See

Figure 16 on page 94. If you are returning a component, place it into an electrostatic

bag before packing it.

Figure 16: Placing a Component into an Electrostatic Bag


• Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High






CHAPTER 14

ReplacingMini-Physical InterfaceModules

• Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High


ReplacingMini-Physical InterfaceModules on the SRX300 Series and SRX550HighMemory Services Gateways

Before you begin, power off the services gateway.

CAUTION: TheMini-Physical Interface Modules (Mini-PIMs) available arenothot-swappable.Youmustpoweroff theservicesgatewaybefore removingor installing Mini-PIMs.

Tomaintain proper airflow through the services gateway, cover any empty Mini-PIM slot

with a blank faceplate.

CAUTION: Do not remove a blank faceplate unless you are installing aMini-PIM in the empty slot.

• Removing a Mini-Physical Interface Module on page 95

• Installing a Mini-Physical Interface Module on page 96

• Removing a Blank Mini-Physical Interface Module Faceplate on page 97

• Installing a Blank Mini-Physical Interface Module Faceplate on page 97

Removing aMini-Physical InterfaceModule

To remove a Mini-PIM from the services gateway:

1. Place an electrostatic bag or antistatic mat on a flat, stable surface on which you

intend to place the Mini-PIM.

2. Attach an ESD grounding strap to your bare wrist, and connect the strap to the

grounding point on the back of the device.


3. Unplug the power adapter from the services gateway. Verify that the Power LED is

off.

4. Label the cables connected to the Mini-PIM so that you can later reconnect each

cable to the correct Mini-PIM.

5. Disconnect the cables from the Mini-PIM.

6. If necessary, arrange the cables to prevent them from dislodging or developing stress

points.

7. Remove the screws on each side of the Mini-PIM faceplate using a 1/8-in. (3-mm)

flat-blade (–) screwdriver.

8. Grasp the screws on each side of the Mini-PIM faceplate and slide the Mini-PIM out

of the services gateway.

9. Place the Mini-PIM in the electrostatic bag or on the antistatic mat.

10. If you are not reinstalling aMini-PIM into the empty slot, install a blank faceplate over

the slot to maintain proper airflow.

Installing aMini-Physical InterfaceModule

To install a Mini-Physical Interface Module (Mini-PIM) in the services gateway.


the strap to the grounding point on the back of the services gateway.

2. Poweroff theservicesgatewaybybrieflypressing thePowerbuttonon the frontpanel.

Wait for thePower LED to turnoff beforeproceeding.Disconnect the servicesgateway

from its power source.

3. Remove the Mini-PIM from the electrostatic bag.

4. Grasp the screws on each side of the Mini-PIM faceplate and align the notches in the

connector at the rear of the Mini-PIM with the notches in the Mini-PIM slot in the

device.

CAUTION: Slide theMini-PIM straight into the slot to avoid damaging thecomponents on the Mini-PIM.

5. Slide the Mini-PIM in until it lodges firmly in the services gateway.



6. Using a 1/8-in. (3-mm) flat-blade (–) screwdriver, tighten the screws on each side of

the Mini-PIM faceplate.

7. Insert the appropriate cables into the cable connectors on the Mini-PIM.


points:

• Secure the cables so that they are not supporting their own weight as they hang to

the floor.

• Place any excess cables out of the way in neatly coiled loops.

• Use fasteners to maintain the shape of the cable loops.

9. Reconnect the power adapter to the services gateway. Verify that the Power LED

glows steadily green after you press the power button.

10. Verify that theMini-PIMLEDon the systemdashboard glows steadily green to confirm

that the Mini-PIM is online.

Removing a BlankMini-Physical InterfaceModule Faceplate

To remove a blank faceplate from the SRX Series Services Gateway:


the strap to the ESD point on the services gateway.

2. If the device is powered on, power off the device. Verify that the Power LED is off.

3. Loosen the screws on each side of the faceplate.

• On faceplates with handles, use a 1/8-in. (3-mm) flat-blade (–) screwdriver to

loosen but not remove the captive screws.

• On faceplates without handles, use a Phillips number 1 screwdriver to remove the

noncaptive screws.

4. Remove the faceplate.

Installing a BlankMini-Physical InterfaceModule Faceplate

To install a blank faceplate on the SRX Series Services Gateway:

1. Align the captive screws on the blank faceplate with the screw holes on the chassis.

2. Tighten the screws on each side of the faceplate.

• On faceplates with handles, use a 1/8-in. (3-mm) flat-blade (–) screwdriver to

tighten the captive screws.


Chapter 14: Replacing Mini-Physical Interface Modules

• On faceplates without handles, use a Phillips number 1 screwdriver to tighten the

noncaptive screws.


• Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High

Memory Services Gateway on page 94

• SRX300 Series and SRX550 High Memory Services Gateway Mini-Physical Interface




CHAPTER 15

Replacing Gigabit-Backplane PhysicalInterface Modules



Replacing Gigabit-Backplane Physical InterfaceModules on the SRX300 Series andSRX550HighMemory Services Gateways

• Removing a Gigabit-Backplane Physical Interface Module on page 99

• Installing a Gigabit-Backplane Physical Interface Module on page 100

• RemovingaBlankGigabit-BackplanePhysical InterfaceModule Faceplateonpage 102

• Installing a Blank Gigabit-Backplane Physical InterfaceModule Faceplate on page 102

Removing a Gigabit-Backplane Physical InterfaceModule

To remove a GPIM from the services gateway:


the strap to one of the ESD points on the chassis. For more information about ESD,

see “Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550

High Memory Services Gateway” on page 94.

2. Push the OFFLINE button to turn the GPIM offline. After the STATUS LED light turns

off, it is safe to remove the GPIM. See Table 51 on page 99 for a description of LED

indications for hot-swappable GPIM components.

Table 51: LED Indications for Hot-Swappable GPIM Components

DescriptionComponentNumber

The STATUS LED has the following indicators:

• Solidgreen indicates that theGPIM is functioningnormally.

• Solid yellow indicates that theGPIM is starting up, runningdiagnostics, or going offline.

• Solid red indicates that the GPIM has failed.

• Off indicates that the GPIM is not powered on, is offline,or is not configured.

STATUS LED1


Table 51: LED Indications for Hot-Swappable GPIM Components(continued)


Push the button to turn the GPIM offline. After the STATUSLED light goes off, it is safe to remove the GPIM from theservices gateway.

ONLINE/OFFLINEbutton

2

3. Label the cables connected to the GPIM so that you can later reconnect each cable

to the correct GPIM.

4. Disconnect the cables from the GPIM.


points.

6. Using a Phillips (+) screwdriver, loosen the captive screws on each side of the GPIM

faceplate.

7. Grasp the handles on each side of the GPIM faceplate, and slide the GPIM out of the

services gateway.

8. Place the GPIM in an electrostatic bag or on an antistatic mat.

9. If you are not reinstalling a GPIM into an empty slot, install a blank GPIM faceplate in

the empty slot to maintain proper airflow.

NOTE: When installingablankGPIMfaceplate,makesure that thepaddedside of the faceplate is facing up.

Installing a Gigabit-Backplane Physical InterfaceModule

Before you begin:

• Ensure that the services gateway is powered off.

• Ensure that the GPIM is installed in the appropriate GPIM slot. For information about

the appropriate GPIM slots, see “SRX300 Series and SRX550 High Memory Services

Gateway Gigabit-Backplane Physical Interface Modules Overview” on page 4.



NOTE: Tomaintain proper airflow through the services gateway, leave blankfaceplates in place over slots that do not contain GPIMs. Do not remove ablank faceplate unless you are immediately installing a GPIM in the emptyslot.

To install a GPIM:


the strap to one of the ESD points on the chassis. For more information about ESD,

see “Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550

High Memory Services Gateway” on page 94.

2. Grasp the handles on each side of the GPIM faceplate, and align the edges of the

GPIM circuit board with the guide rails at each side of the GPIM slot.

3. Slide the GPIM into the services gateway until it seats firmly in the device.

CAUTION: Slide the GPIM straight into the slot to avoid damaging thecomponents on the GPIM.

4. Using a Phillips (+) screwdriver, tighten the captive screws on each side of the GPIM

faceplate.

5. Insert the appropriate cables into the cable connectors on the GPIM.


points:

• Secure the cable so that it is not supporting its own weight as it hangs to the floor.

• Place excess cable out of the way in a neatly coiled loop.

• Use fasteners to maintain the shape of the cable loops.

After the STATUS LED light turns green and glows steadily on, the GPIM is online and

functioningnormally. SeeTable52onpage 102 for hot-swappable componentsand their

descriptions.


Chapter 15: Replacing Gigabit-Backplane Physical Interface Modules

Table 52: Hot-Swappable Component Descriptions for GPIMs


The STATUS LED has the following indicator s:

• Steady green indicates that the GPIM is functioningnormally.

• Steady yellow indicates that the GPIM is starting up,running diagnostics, or going offline.

• Steady red indicates that the GPIM has failed.

• Off indicates that the GPIM is not powered on, is offline,or is not configured.

STATUS LED1

NOTE: Youneednotpress thisbuttonwhen installingaGPIM.Theservicesgatewayautomatically recognizeswhenaGPIMhas been inserted into a slot.

ONLINE/OFFLINEbutton

2

Removing a Blank Gigabit-Backplane Physical InterfaceModule Faceplate

Tomaintain proper airflow through the services gateway, leave blank faceplates in place

over slots that do not contain Gigabit-Backplane Physical Interface Modules (GPIMs).

Do not remove a blank faceplate unless you are immediately installing a GPIM in the

empty slot.

To remove a blank faceplate:

1. Using a Phillips (+) screwdriver, loosen the captive screws on each side of the blank

faceplate.

2. Using a flat-blade (–) screwdriver, gently pry out one side of the faceplate and pull

it out.

NOTE: When installing a blank GPIM faceplate, make sure that the paddedside of the faceplate is facing up.

Installing a Blank Gigabit-Backplane Physical InterfaceModule Faceplate

Tomaintain proper airflow through the services gateway, install blank faceplates in slots

that do not contain Gigabit-Backplane Physical Interface Modules (GPIMs).

To install a blank faceplate:

1. Align the captive screws on the blank faceplate with the screw holes on the chassis.

2. Using a Phillips (+) screwdriver, tighten the captive screws on each side of the blank

faceplate until the faceplate is flush with the chassis.







Chapter 15: Replacing Gigabit-Backplane Physical Interface Modules

CHAPTER 16

Contacting Customer Support andReturning Components

• Contacting Customer Support on page 105

• ReturnProcedure forSRXSeriesServicesGatewayHardwareComponentsonpage 106

• Locating the SRX Series Services Gateway Hardware Component Mini-PIM or GPIM

Serial Number Label on page 107

• Information You Might Need to Supply to JTAC on page 107

• Required Tools and Parts for Packing the SRX Series Services Gateway Hardware

Components on page 108

• Packing the SRX Series Services Gateway Hardware Components for

Shipment on page 108

Contacting Customer Support

Once you have located the serial numbers of the services gateway or component, you

can return them for repair or replacement. For this, you need to contact Juniper Networks

Technical Assistance Center (JTAC).

You can contact JTAC 24 hours a day, 7 days aweek, using any of the followingmethods:

• On theWeb: Using the Case Manager link at http://www.juniper.net/support/

• By telephone:

• From the US and Canada: 1-888-314-JTAC

• From all other locations: 1-408-745-9500

NOTE: If contacting JTAC by telephone, enter your 11-digit case numberfollowed by the pound (#) key if this is an existing case, or press the star(*) key to be routed to the next available support engineer.


ReturnProcedure forSRXSeriesServicesGatewayHardwareComponentsonpage 106•


http://www.juniper.net/support/




• Packing the SRX Series Services Gateway Hardware Components for Shipment on

page 108

Return Procedure for SRX Series Services Gateway Hardware Components

Follow the tasks list provided in Table 53 on page 106 to return anSRX services gateways

or component to Juniper Networks for repair or replacement.

Table53:ReturnProcedure forSRXSeriesServicesGatewaysComponent

For more information, seeTaskStep

“Locating the SRX Series ServicesGateway Hardware ComponentMini-PIMorGPIMSerialNumberLabel”on page 107

Determine the part number and serialnumber of the services gateway orcomponent.

1

“InformationYouMightNeed toSupplyto JTAC” on page 107

ObtainaReturnMaterialsAuthorization(RMA) number from JTAC.

2

“Packing the SRX Series ServicesGateway Hardware Components forShipment” on page 108

Pack the SRXSeries Services Gatewaycomponent for shipping.

3

NOTE: Do not return the services gateway or any component to JuniperNetworks unless you have first obtained an RMA number. Juniper Networksreserves the right to refuse shipments that do not have an RMA. Refusedshipments are returned to the customer via collect freight.

For more information about return and repair policies, see the customer support Web

page at http://www.juniper.net/support/guidelines.html.

For product problems or technical support issues, open a support case using the Case

Manager linkathttp://www.juniper.net/support/or call 1-888-314-JTAC(within theUnited

States) or 1-408-745-9500 (outside the United States).


Locating the SRX Series Services Gateway Hardware Component Mini-PIM or GPIM


•



• Packing the SRX Series Services Gateway Hardware Components for Shipment on

page 108



http://www.juniper.net/support/guidelines.html

http://www.juniper.net/support/

Locating the SRX Series Services Gateway Hardware Component Mini-PIM or GPIMSerial Number Label

This topic includes the following sections:

• SRX Series Services Gateway Mini-PIM Serial Number Label on page 107

• SRX Series Services Gateway GPIM Serial Number Label on page 107

SRX Series Services GatewayMini-PIM Serial Number Label

Mini-Physical Interface Modules (Mini-PIMs) are field-replaceable on the SRX Series

Services Gateway. Each Mini-PIM has a unique serial number. The serial number label is

located on the right side of the Mini-PIM, when the Mini-PIM is horizontally oriented (as

it would be installed on the device). The exact location might be slightly different on

different Mini-PIMs, depending on the placement of components on the Mini-PIM.

SRX Series Services Gateway GPIM Serial Number Label

Gigabit-Backplane Physical Interface Modules (GPIMs) are hot-swappable and

field-replaceable on the SRX Series Services Gateway. Each GPIM has a unique serial

number. The exact location might be slightly different on different GPIMs (XPIMs or

GPIMs), depending on the placement of the components on the GPIM.

NOTE: Only the SRX650 Services Gateway supports hot-swappablefunctionality for GPIMs. The SRX550 Services Gateway does not supporthot-swappable functionality for GPIMs.





Information YouMight Need to Supply to JTAC

If you are returning ahardware component to JuniperNetworks for repair or replacement,

obtain a ReturnMaterials Authorization (RMA) number from Juniper Networks Technical

Assistance Center (JTAC).

When requesting support from JTAC by telephone, be prepared to provide the following

information:

• Your existing case number, if you have one

• Details of the failure or problem

• Typeofactivitybeingperformedon theservicesgatewaycomponentwhen theproblem

occurred


Chapter 16: Contacting Customer Support and Returning Components

• Configuration data displayed by one or more show commands

• Your name, organization name, telephone number, fax number, and shipping address






Required Tools and Parts for Packing the SRX Series Services Gateway HardwareComponents

The following tools and parts are required to pack the SRX Series Services Gateway

Hardware Components:

• Blank panel to cover empty Mini-PIM slot

• Electrostatic bag or antistatic mat, for each component

• Electrostatic discharge (ESD) grounding wrist strap

• Flat-blade screwdriver, approximately 1/4 in (6mm)

• Phillips (+) screwdrivers, numbers 1 and 2

Packing the SRX Series Services Gateway Hardware Components for Shipment

This topic includes the following section:

• Packing the Hardware Components for Shipment on page 108

Packing the Hardware Components for Shipment

Follow these guidelines for packing and shipping individual components of the services

gateway:

• When you return a component, make sure that it is adequately protectedwith packing

materials and packed so that the pieces are prevented frommoving around inside the

carton.

• Use the original shipping materials if they are available.

• Place individual Mini-Physical Interface Modules (Mini-PIMs) in electrostatic bags.

• Write the Return Materials Authorization (RMA) number on the exterior of the box to

ensure proper tracking.

CAUTION: Do not stack any of the services gateway components duringpacking.




• ReturnProcedure forSRXSeriesServicesGatewayHardwareComponentsonpage 106





Chapter 16: Contacting Customer Support and Returning Components

srx300 series and srx550 high memory gateway · pdf filemini-pim ... viii...

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